X-Git-Url: https://thelambdalab.xyz/gitweb/index.cgi?a=blobdiff_plain;f=src%2Fforth.jl;h=766bd4e1cdf2f3ff24685ab186a75188103f8202;hb=4b2f52917ce00e4af92d2a3a86e199d21748da5b;hp=7cf0ca7d7d96d0c450c130758a318aab73f88618;hpb=cccf599127228c9e6029deff1a6698a010089f50;p=forth.jl.git diff --git a/src/forth.jl b/src/forth.jl index 7cf0ca7..766bd4e 100644 --- a/src/forth.jl +++ b/src/forth.jl @@ -1,13 +1,12 @@ module forth # VM mem size -size_mem = 640*1024 +size_mem = 1000000 # 1 mega-int # Buffer sizes -size_BIVar = 16 # -size_RS = 1024 # Return stack size -size_PS = 1024 # Parameter stack size -size_TIB = 4096 # Terminal input buffer size +size_RS = 1000 # Return stack size +size_PS = 1000 # Parameter stack size +size_TIB = 1000 # Terminal input buffer size # The mem array constitutes the memory of the VM. It has the following geography: # @@ -27,11 +26,12 @@ size_TIB = 4096 # Terminal input buffer size # the dictionary. # # Simple linear addressing is used with one exception: references to primitive code -# blocks, which are represented as anonymous functions, appear the negative index -# into the primitives array which contains only these functions. +# blocks, which are represented as anonymous functions, appear as negative indicies +# into the primitives array which contains these functions. mem = Array{Int64,1}(size_mem) primitives = Array{Function,1}() +primNames = Array{ASCIIString,1}() # Built-in variables @@ -41,29 +41,53 @@ PSP0 = nextVarAddr; nextVarAddr += 1 HERE = nextVarAddr; nextVarAddr += 1 LATEST = nextVarAddr; nextVarAddr += 1 -mem[RSP0] = size_BIVar # bottom of RS +mem[RSP0] = nextVarAddr # bottom of RS mem[PSP0] = mem[RSP0] + size_RS # bottom of PS TIB = mem[PSP0] + size_PS # address of terminal input buffer mem[HERE] = TIB + size_TIB # location of bottom of dictionary mem[LATEST] = 0 # no previous definition +DICT = mem[HERE] # Save bottom of dictionary as constant + # VM registers type Reg RSP::Int64 # Return stack pointer PSP::Int64 # Parameter/data stack pointer IP::Int64 # Instruction pointer W::Int64 # Working register - X::Int64 # Extra register end -reg = Reg(mem[RSP0], mem[PSP0], 0, 0, 0) +reg = Reg(mem[RSP0], mem[PSP0], 0, 0) # Stack manipulation functions +type ParamStackUnderflow <: Exception end +type ReturnStackUnderflow <: Exception end + +Base.showerror(io::IO, ex::ParamStackUnderflow) = print(io, "Parameter stack underflow.") +Base.showerror(io::IO, ex::ReturnStackUnderflow) = print(io, "Return stack underflow.") + +getRSDepth() = reg.RSP - mem[RSP0] +getPSDepth() = reg.PSP - mem[PSP0] + +function ensurePSDepth(depth::Int64) + if getPSDepth()=0 || -addr>length(primitives) + error("Attempted to execute non-existent primitive at address $addr.") + else + primitives[-addr]() + end +end +getPrimName(addr::Int64) = primNames[-addr] + +# Word creation functions + +F_IMMED = 128 +F_HIDDEN = 256 +F_LENMASK = 127 + function createHeader(name::AbstractString, flags::Int64) mem[mem[HERE]] = mem[LATEST] mem[LATEST] = mem[HERE] mem[HERE] += 1 - mem[mem[HERE]] = length(name) + flags; mem[HERE] += 1 - mem[mem[HERE]:(mem[HERE]+length(name)-1)] = [Int(c) for c in name]; mem[HERE] += length(name) + mem[mem[HERE]] = length(name) | flags; mem[HERE] += 1 + putString(name, mem[HERE]); mem[HERE] += length(name) end -function defPrim(name::AbstractString, f::Function; flags::Int64=0) +function defPrimWord(name::AbstractString, f::Function; flags::Int64=0) createHeader(name, flags) - push!(primitives, f) - mem[mem[HERE]] = -length(primitives) + codeWordAddr = mem[HERE] + mem[codeWordAddr] = defPrim(f, name=name) mem[HERE] += 1 - return -length(primitives) + return codeWordAddr end -callPrim(addr::Int64) = primitives[-addr]() +function defWord(name::AbstractString, wordAddrs::Array{Int64,1}; flags::Int64=0) + createHeader(name, flags) + + addr = mem[HERE] + mem[mem[HERE]] = DOCOL + mem[HERE] += 1 -function defExistingVar(name::AbstractString, varAddr::Int64; flags::Int64=0) - defPrim(name, eval(:(() -> begin - pushPS($(varAddr)) - return NEXT - end))) + for wordAddr in wordAddrs + mem[mem[HERE]] = wordAddr + mem[HERE] += 1 + end + + return addr end -function defConst(name::AbstractString, val::Int64; flags::Int64=0) - defPrim(name, eval(:(() -> begin - pushPS($(val)) +# Variable creation functions + +function defExistingVar(name::AbstractString, varAddr::Int64; flags::Int64=0) + + defPrimWord(name, eval(:(() -> begin + pushPS($(varAddr)) return NEXT end))) end @@ -119,57 +183,331 @@ end function defNewVar(name::AbstractString, initial::Int64; flags::Int64=0) createHeader(name, flags) + codeWordAddr = mem[HERE] varAddr = mem[HERE] + 1 - push!(primitives, eval(:(() -> begin - pushPS($(varAddr)) - return NEXT - end))) - mem[mem[HERE]] = -length(primitives); mem[HERE] += 1 + mem[mem[HERE]] = DOVAR; mem[HERE] += 1 mem[mem[HERE]] = initial; mem[HERE] += 1 - return varAddr + return varAddr, codeWordAddr end -# Threading Primitives +function defConst(name::AbstractString, val::Int64; flags::Int64=0) + createHeader(name, flags) + + codeWordAddr = mem[HERE] + + mem[mem[HERE]] = DOCON; mem[HERE] += 1 + mem[mem[HERE]] = val; mem[HERE] += 1 + + return codeWordAddr +end + +# Threading Primitives (inner interpreter) -NEXT = defPrim("NEXT", () -> begin +NEXT = defPrim(() -> begin reg.W = mem[reg.IP] reg.IP += 1 - X = mem[reg.W] - return X -end) + return mem[reg.W] +end, name="NEXT") -DOCOL = defPrim("DOCOL", () -> begin +DOCOL = defPrim(() -> begin pushRS(reg.IP) reg.IP = reg.W + 1 return NEXT -end) +end, name="DOCOL") + +DOVAR = defPrim(() -> begin + pushPS(reg.W + 1) + return NEXT +end, name="DOVAR") + +DOCON = defPrim(() -> begin + pushPS(mem[reg.W + 1]) + return NEXT +end, name="DOVAR") -EXIT = defPrim("EXIT", () -> begin +EXIT = defPrimWord("EXIT", () -> begin reg.IP = popRS() return NEXT end) +# Dictionary entries for core built-in variables, constants + +HERE_CFA = defExistingVar("HERE", HERE) +LATEST_CFA = defExistingVar("LATEST", LATEST) +PSP0_CFA = defExistingVar("PSP0", PSP0) +RSP0_CFA = defExistingVar("RSP0", RSP0) + +defConst("DOCOL", DOCOL) +defConst("DOCON", DOCON) +defConst("DOVAR", DOVAR) + +defConst("DICT", DICT) +defConst("MEMSIZE", size_mem) + +F_IMMED_CFA = defConst("F_IMMED", F_IMMED) +F_HIDDEN_CFA = defConst("F_HIDDEN", F_HIDDEN) +F_LENMASK_CFA = defConst("F_LENMASK", F_LENMASK) # Basic forth primitives -DROP = defPrim("DROP", () -> begin +DROP = defPrimWord("DROP", () -> begin popPS() return NEXT end) -SWAP = defPrim("SWAP", () -> begin - mem[reg.PSP], mem[reg.PSP-1] = mem[reg.PSP-1], mem[reg.PSP] +SWAP = defPrimWord("SWAP", () -> begin + a = popPS() + b = popPS() + pushPS(a) + pushPS(b) return NEXT end) -DUP = defPrim("DUP", () -> begin +DUP = defPrimWord("DUP", () -> begin + ensurePSDepth(1) pushPS(mem[reg.PSP]) return NEXT end) -LIT = defPrim("LIT", () -> begin +OVER = defPrimWord("OVER", () -> begin + ensurePSDepth(2) + pushPS(mem[reg.PSP-1]) + return NEXT +end) + +ROT = defPrimWord("ROT", () -> begin + a = popPS() + b = popPS() + c = popPS() + pushPS(b) + pushPS(a) + pushPS(c) + return NEXT +end) + +NROT = defPrimWord("-ROT", () -> begin + a = popPS() + b = popPS() + c = popPS() + pushPS(a) + pushPS(c) + pushPS(b) + return NEXT +end) + + +TWODROP = defPrimWord("2DROP", () -> begin + popPS() + popPS() + return NEXT +end) + +TWODUP = defPrimWord("2DUP", () -> begin + ensurePSDepth(2) + a = mem[reg.PSP-1] + b = mem[reg.PSP] + pushPS(a) + pushPS(b) + return NEXT +end) + +TWOSWAP = defPrimWord("2SWAP", () -> begin + a = popPS() + b = popPS() + c = popPS() + d = popPS() + pushPS(b) + pushPS(a) + pushPS(d) + pushPS(c) + return NEXT +end) + +TWOOVER = defPrimWord("2OVER", () -> begin + ensurePSDepth(4) + a = mem[reg.PSP-3] + b = mem[reg.PSP-2] + pushPS(a) + pushPS(b) + return NEXT +end) + +QDUP = defPrimWord("?DUP", () -> begin + ensurePSDepth(1) + val = mem[reg.PSP] + if val != 0 + pushPS(val) + end + return NEXT +end) + +INCR = defPrimWord("1+", () -> begin + ensurePSDepth(1) + mem[reg.PSP] += 1 + return NEXT +end) + +DECR = defPrimWord("1-", () -> begin + ensurePSDepth(1) + mem[reg.PSP] -= 1 + return NEXT +end) + +INCR2 = defPrimWord("2+", () -> begin + ensurePSDepth(1) + mem[reg.PSP] += 2 + return NEXT +end) + +DECR2 = defPrimWord("2-", () -> begin + ensurePSDepth(1) + mem[reg.PSP] -= 2 + return NEXT +end) + +ADD = defPrimWord("+", () -> begin + b = popPS() + a = popPS() + pushPS(a+b) + return NEXT +end) + +SUB = defPrimWord("-", () -> begin + b = popPS() + a = popPS() + pushPS(a-b) + return NEXT +end) + +MUL = defPrimWord("*", () -> begin + b = popPS() + a = popPS() + pushPS(a*b) + return NEXT +end) + +DIVMOD = defPrimWord("/MOD", () -> begin + b = popPS() + a = popPS() + q,r = divrem(a,b) + pushPS(r) + pushPS(q) + return NEXT +end) + +TWOMUL = defPrimWord("2*", () -> begin + pushPS(popPS() << 1) + return NEXT +end) + +TWODIV = defPrimWord("2/", () -> begin + pushPS(popPS() >> 1) + return NEXT +end) + +EQ = defPrimWord("=", () -> begin + b = popPS() + a = popPS() + pushPS(a==b ? -1 : 0) + return NEXT +end) + +NE = defPrimWord("<>", () -> begin + b = popPS() + a = popPS() + pushPS(a!=b ? -1 : 0) + return NEXT +end) + +LT = defPrimWord("<", () -> begin + b = popPS() + a = popPS() + pushPS(a", () -> begin + b = popPS() + a = popPS() + pushPS(a>b ? -1 : 0) + return NEXT +end) + +LE = defPrimWord("<=", () -> begin + b = popPS() + a = popPS() + pushPS(a<=b ? -1 : 0) + return NEXT +end) + +GE = defPrimWord(">=", () -> begin + b = popPS() + a = popPS() + pushPS(a>=b ? -1 : 0) + return NEXT +end) + +ZE = defPrimWord("0=", () -> begin + pushPS(popPS() == 0 ? -1 : 0) + return NEXT +end) + +ZNE = defPrimWord("0<>", () -> begin + pushPS(popPS() != 0 ? -1 : 0) + return NEXT +end) + +ZLT = defPrimWord("0<", () -> begin + pushPS(popPS() < 0 ? -1 : 0) + return NEXT +end) + +ZGT = defPrimWord("0>", () -> begin + pushPS(popPS() > 0 ? -1 : 0) + return NEXT +end) + +ZLE = defPrimWord("0<=", () -> begin + pushPS(popPS() <= 0 ? -1 : 0) + return NEXT +end) + +ZGE = defPrimWord("0>=", () -> begin + pushPS(popPS() >= 0 ? -1 : 0) + return NEXT +end) + +AND = defPrimWord("AND", () -> begin + b = popPS() + a = popPS() + pushPS(a & b) + return NEXT +end) + +OR = defPrimWord("OR", () -> begin + b = popPS() + a = popPS() + pushPS(a | b) + return NEXT +end) + +XOR = defPrimWord("XOR", () -> begin + b = popPS() + a = popPS() + pushPS(a $ b) + return NEXT +end) + +INVERT = defPrimWord("INVERT", () -> begin + pushPS(~popPS()) + return NEXT +end) + +# Literals + +LIT = defPrimWord("LIT", () -> begin pushPS(mem[reg.IP]) reg.IP += 1 return NEXT @@ -177,27 +515,27 @@ end) # Memory primitives -STORE = defPrim("!", () -> begin +STORE = defPrimWord("!", () -> begin addr = popPS() dat = popPS() mem[addr] = dat return NEXT end) -FETCH = defPrim("@", () -> begin +FETCH = defPrimWord("@", () -> begin addr = popPS() pushPS(mem[addr]) return NEXT end) -ADDSTORE = defPrim("+!", () -> begin +ADDSTORE = defPrimWord("+!", () -> begin addr = popPS() toAdd = popPS() mem[addr] += toAdd return NEXT end) -SUBSTORE = defPrim("-!", () -> begin +SUBSTORE = defPrimWord("-!", () -> begin addr = popPS() toSub = popPS() mem[addr] -= toSub @@ -205,120 +543,501 @@ SUBSTORE = defPrim("-!", () -> begin end) -# Built-in variables - -defExistingVar("HERE", HERE) -defExistingVar("LATEST", LATEST) -defExistingVar("PSP0", PSP0) -defExistingVar("RSP0", RSP0) -defNewVar("STATE", 0) -defNewVar("BASE", 10) - -# Constants - -defConst("VERSION", 1) -defConst("DOCOL", DOCOL) - # Return Stack -TOR = defPrim(">R", () -> begin +TOR = defPrimWord(">R", () -> begin pushRS(popPS()) return NEXT end) -FROMR = defPrim("R>", () -> begin +FROMR = defPrimWord("R>", () -> begin pushPS(popRS()) return NEXT end) -RSPFETCH = defPrim("RSP@", () -> begin - pushPS(RSP) +RFETCH = defPrimWord("R@", () -> begin + pushPS(mem[reg.RSP]) return NEXT end) -RSPSTORE = defPrim("RSP!", () -> begin +RSPFETCH = defPrimWord("RSP@", () -> begin + pushPS(reg.RSP) + return NEXT +end) + +RSPSTORE = defPrimWord("RSP!", () -> begin RSP = popPS() return NEXT end) -RDROP = defPrim("RDROP", () -> begin +RDROP = defPrimWord("RDROP", () -> begin popRS() return NEXT end) # Parameter Stack -PSPFETCH = defPrim("PSP@", () -> begin - pushPS(PSP) +PSPFETCH = defPrimWord("PSP@", () -> begin + pushPS(reg.PSP) return NEXT end) -PSPSTORE = defPrim("PSP!", () -> begin +PSPSTORE = defPrimWord("PSP!", () -> begin PSP = popPS() return NEXT end) +# Working Register + +WFETCH = defPrimWord("W@", () -> begin + pushPS(reg.W) + return NEXT +end) + +WSTORE = defPrimWord("W!", () -> begin + reg.W = popPS() + return NEXT +end) + # I/O -defConst("TIB", TIB) -NUMTIB = defNewVar("#TIB", 0) -TOIN = defNewVar(">IN", TIB) +sources = Array{Any,1}() +currentSource() = sources[length(sources)] -#KEY = defPrim("KEY", (reg) -> begin -# if toin >= numtib -# -# end -# -# return NEXT -#end) -# -#EMIT = defPrim("EMIT", (reg) -> begin -# -# return NEXT -#end) -# -#WORD = defPrim("WORD", (reg) -> begin -# -# return NEXT -#end) -# -#NUMBER = defPrim("NUMBER", (reg) -> begin -# -# return NEXT -#end) -# -#### VM loop #### -#function runVM(reg::Reg) -# jmp = NEXT -# while (jmp = callPrim(reg, jmp)) != 0 end -#end +EOF_CFA = defConst("EOF", 4) -# Debugging tools +EMIT = defPrimWord("EMIT", () -> begin + print(Char(popPS())) + return NEXT +end) -function coredump(startAddr::Int64; count::Int64 = 16, cellsPerLine::Int64 = 8) - chars = Array{Char,1}(cellsPerLine) +SPAN, SPAN_CFA = defNewVar("SPAN", 0) +EXPECT = defPrimWord("EXPECT", () -> begin + maxLen = popPS() + addr = popPS() + + if !eof(currentSource()) + line = chomp(readline(currentSource())) + mem[SPAN] = min(length(line), maxLen) + putString(line[1:mem[SPAN]], addr) + else + mem[SPAN] = 1 + mem[addr] = EOF + end + + return NEXT +end) + +BASE, BASE_CFA = defNewVar("BASE", 10) +NUMBER = defPrimWord("NUMBER", () -> begin + wordAddr = popPS()+1 + wordLen = mem[wordAddr-1] + + s = getString(wordAddr, wordLen) + + pushPS(parse(Int64, s, mem[BASE])) + + return NEXT +end) + +# Dictionary searches + +FIND = defPrimWord("FIND", () -> begin + + countedAddr = popPS() + wordAddr = countedAddr + 1 + wordLen = mem[countedAddr] + word = lowercase(getString(wordAddr, wordLen)) + + latest = LATEST + + i = 0 + while (latest = mem[latest]) > 0 + lenAndFlags = mem[latest+1] + len = lenAndFlags & F_LENMASK + hidden = (lenAndFlags & F_HIDDEN) == F_HIDDEN + + if hidden || len != wordLen + continue + end + + thisAddr = latest+2 + thisWord = lowercase(getString(thisAddr, len)) + + if lowercase(thisWord) == lowercase(word) + break + end + end + + pushPS(latest) + + return NEXT +end) + +TOCFA = defPrimWord(">CFA", () -> begin + + addr = popPS() + lenAndFlags = mem[addr+1] + len = lenAndFlags & F_LENMASK + + pushPS(addr + 2 + len) + + return NEXT +end) + +TOPFA = defWord(">PFA", [TOCFA, INCR, EXIT]) + +# Branching + +BRANCH = defPrimWord("BRANCH", () -> begin + reg.IP += mem[reg.IP] + return NEXT +end) + +ZBRANCH = defPrimWord("0BRANCH", () -> begin + if (popPS() == 0) + reg.IP += mem[reg.IP] + else + reg.IP += 1 + end + + return NEXT +end) + +# Strings + +LITSTRING = defPrimWord("LITSTRING", () -> begin + len = mem[reg.IP] + reg.IP += 1 + pushPS(reg.IP) + pushPS(len) + reg.IP += len + + return NEXT +end) + +TYPE = defPrimWord("TYPE", () -> begin + len = popPS() + addr = popPS() + str = getString(addr, len) + print(str) + return NEXT +end) + +# Outer interpreter + +TRACE = defPrimWord("TRACE", () -> begin + println("reg.W: $(reg.W) reg.IP: $(reg.IP)") + print("PS: "); printPS() + print("RS: "); printRS() + print("[paused]") + readline() + + return NEXT +end) + +COMMA = defPrimWord(",", () -> begin + mem[mem[HERE]] = popPS() + mem[HERE] += 1 + + return NEXT +end) + +BTICK = defWord("[']", + [FROMR, DUP, INCR, TOR, FETCH, EXIT]) + +EXECUTE = defPrimWord("EXECUTE", () -> begin + reg.W = popPS() + return mem[reg.W] +end) + +TIB_CFA = defConst("TIB", TIB) +NUMTIB, NUMTIB_CFA = defNewVar("#TIB", 0) +TOIN, TOIN_CFA = defNewVar(">IN", 0) + +QUERY = defWord("QUERY", + [TIB_CFA, LIT, 80, EXPECT, + SPAN_CFA, FETCH, NUMTIB_CFA, STORE, + LIT, 0, TOIN_CFA, STORE, + EXIT]) + +WORD = defPrimWord("WORD", () -> begin + delim = popPS() - for i in 0:(count-1) - addr = startAddr + i - if i%cellsPerLine == 0 - print("$addr:") + # Chew up initial occurrences of delim + while (mem[TOIN] begin + delim = popPS() + + # Chew up initial occurrences of delim + addr = mem[HERE] + + # Start reading input stream + count = 0 + while (mem[TOIN] begin + println("Bye!") + return 0 +end) + +STATE, STATE_CFA = defNewVar("STATE", 0) + +INTERPRET = defWord("INTERPRET", + [LIT, 32, WORD, # Read next space-delimited word + + DUP, FETCH, ZE, ZBRANCH, 3, + DROP, EXIT, # Exit if TIB is exhausted + + STATE_CFA, FETCH, ZBRANCH, 31, + # Compiling + DUP, FIND, QDUP, ZBRANCH, 19, + + # Found word. + SWAP, DROP, + DUP, TOCFA, SWAP, INCR, FETCH, LIT, F_IMMED, AND, ZBRANCH, 4, + # Immediate: Execute! + EXECUTE, BRANCH, -33, + + # Not immediate: Compile! + COMMA, BRANCH, -36, + + # No word found, parse number + NUMBER, BTICK, LIT, COMMA, COMMA, BRANCH, -43, + + # Interpreting + DUP, FIND, QDUP, ZBRANCH, 7, + + # Found word. Execute! + SWAP, DROP, TOCFA, EXECUTE, BRANCH, -54, + + # No word found, parse number and leave on stack + NUMBER, BRANCH, -57, + EXIT] +) + +PROMPT = defPrimWord("PROMPT", () -> begin + if (mem[STATE] == 0 && currentSource() == STDIN) + println(" ok") + end + + return NEXT +end) + +QUIT = defWord("QUIT", + [RSP0_CFA, RSPSTORE, + QUERY, + INTERPRET, PROMPT, + BRANCH,-4]) + +INCLUDE = defPrimWord("INCLUDE", () -> begin + pushPS(32) + callPrim(mem[WORD]) + wordAddr = popPS()+1 + wordLen = mem[wordAddr-1] + word = getString(wordAddr, wordLen) + + push!(sources, open(word, "r")) + + # Clear input buffer + mem[NUMTIB] = 0 + + return NEXT +end) + +# Compilation + +HEADER = defPrimWord("HEADER", () -> begin + wordAddr = popPS()+1 + wordLen = mem[wordAddr-1] + word = getString(wordAddr, wordLen) - if (mem[addr]>=32 && mem[addr]<176) - chars[i%cellsPerLine + 1] = Char(mem[addr]) + createHeader(word, 0) + + return NEXT +end) + +LBRAC = defPrimWord("[", () -> begin + mem[STATE] = 0 + return NEXT +end, flags=F_IMMED) + +RBRAC = defPrimWord("]", () -> begin + mem[STATE] = 1 + return NEXT +end, flags=F_IMMED) + +HIDDEN = defPrimWord("HIDDEN", () -> begin + addr = popPS() + 1 + mem[addr] = mem[addr] $ F_HIDDEN + return NEXT +end) + +HIDE = defWord("HIDE", + [LIT, 32, WORD, + FIND, + HIDDEN, + EXIT]) + +COLON = defWord(":", + [LIT, 32, WORD, + HEADER, + LIT, DOCOL, COMMA, + LATEST_CFA, FETCH, HIDDEN, + RBRAC, + EXIT]) + +SEMICOLON = defWord(";", + [LIT, EXIT, COMMA, + LATEST_CFA, FETCH, HIDDEN, + LBRAC, + EXIT], flags=F_IMMED) + +IMMEDIATE = defPrimWord("IMMEDIATE", () -> begin + lenAndFlagsAddr = mem[LATEST] + 1 + mem[lenAndFlagsAddr] = mem[lenAndFlagsAddr] $ F_IMMED + return NEXT +end, flags=F_IMMED) + + +#### VM loop #### + +initialized = false +initFileName = nothing +if isfile("lib.4th") + initFileName = "lib.4th" +elseif isfile(Pkg.dir("forth/src/lib.4th")) + initFileName = Pkg.dir("forth/src/lib.4th") +end + +function run(;initialize=true) + # Begin with STDIN as source + push!(sources, STDIN) + + global initialized, initFileName + if !initialized && initialize + if initFileName != nothing + print("Including definitions from $initFileName...") + push!(sources, open(initFileName, "r")) + initialized = true else - chars[i%cellsPerLine + 1] = '.' + println("No library file found. Only primitive words available.") end + end - if i%cellsPerLine == cellsPerLine-1 - println(string("\t", ASCIIString(chars))) + # Start with IP pointing to first instruction of outer interpreter + reg.IP = QUIT + 1 + + # Primitive processing loop. + # Everyting else is simply a consequence of this loop! + jmp = NEXT + while jmp != 0 + try + #println("Entering prim $(getPrimName(jmp))") + jmp = callPrim(jmp) + + catch ex + showerror(STDOUT, ex) + println() + + while !isempty(sources) && currentSource() != STDIN + close(pop!(sources)) + end + + # Want backtrace in here eventually + println("reg.W: $(reg.W) reg.IP: $(reg.IP)") + print("PS: "); printPS() + print("RS: "); printRS() + + mem[STATE] = 0 + mem[NUMTIB] = 0 + reg.PSP = mem[PSP0] + reg.RSP = mem[RSP0] + reg.IP = QUIT + 1 + jmp = NEXT end end end -function dumpPS() +# Debugging tools + +function dump(startAddr::Int64; count::Int64 = 100, cellsPerLine::Int64 = 10) + chars = Array{Char,1}(cellsPerLine) + + lineStartAddr = cellsPerLine*div((startAddr-1),cellsPerLine) + 1 + endAddr = startAddr + count - 1 + + q, r = divrem((endAddr-lineStartAddr+1), cellsPerLine) + numLines = q + (r > 0 ? 1 : 0) + + i = lineStartAddr + for l in 1:numLines + print(i,":") + + for c in 1:cellsPerLine + if i >= startAddr && i <= endAddr + print("\t",mem[i]) + if mem[i]>=32 && mem[i]<128 + chars[c] = Char(mem[i]) + else + chars[c] = '.' + end + else + print("\t") + chars[c] = ' ' + end + + i += 1 + end + + println("\t", ASCIIString(chars)) + end +end + +function printPS() count = reg.PSP - mem[PSP0] if count > 0 @@ -332,4 +1051,27 @@ function dumpPS() end end +function printRS() + count = reg.RSP - mem[RSP0] + + if count > 0 + print("<$count>") + for i in (mem[RSP0]+1):reg.RSP + print(" $(mem[i])") + end + println() + else + println("Return stack empty") + end +end + +DUMP = defPrimWord("DUMP", () -> begin + count = popPS() + addr = popPS() + + dump(addr, count=count) + + return NEXT +end) + end