prosper/main.go

178 lines
7.2 KiB
Go

package main
import (
"bufio"
"errors"
"flag"
"fmt"
"os"
"strings"
)
type libraryFiles []string
func (l *libraryFiles) String() string {
return strings.Join(*l, ", ")
}
func (l *libraryFiles) Set(value string) error {
*l = append(*l, strings.TrimSpace(value))
return nil
}
func main() {
// flag setup
var libs libraryFiles
flag.Var(&libs, "l", "propser library file (may be repeated)")
flag.Parse()
// create main context
stack := Stack{values: []int{}}
rstack := Stack{values: []int{}}
ifstack := Stack{values: []int{}}
dict := Dictionary{}
c := Context{
Dictionary: dict,
Stack: &stack,
RStack: &rstack,
IfStack: &ifstack,
Flags: Flags{
"Immediate": true,
},
Words: []string{},
Memory: Memory{
intern: map[int]int{},
nextFree: 1,
},
StringBuffer: "",
Output: os.Stdout,
}
defineBuiltIns(&c)
// load libraries
for l := range libs {
w, _ := c.Dictionary.GetWord("LOAD")
c.StringBuffer = libs[l]
err := w.Impl("")
if err != nil {
fmt.Fprintf(c.Output, "error in library %s: %v\n", libs[l], err)
} else {
fmt.Fprintf(c.Output, "loaded %s\n", libs[l])
}
}
reader := bufio.NewReader(os.Stdin)
fmt.Print("prosper\n")
// read loop
for {
if c.Flags["Immediate"] {
fmt.Print("> ")
} else {
fmt.Print(" ")
}
line, err := reader.ReadString('\n')
if err != nil {
fmt.Println(err.Error())
os.Exit(1)
}
line = strings.TrimSpace(line)
err = c.Eval(line + " ") // append a space to make sure we always close out our parse loop
if errors.Is(err, ErrExit) {
fmt.Printf("bye\n")
os.Exit(0)
} else if err != nil {
fmt.Printf("error in evaluation: %v\n", err)
} else if c.Flags["Immediate"] {
fmt.Print("ok\n")
}
}
}
func defineBuiltIns(c *Context) {
b := &Builtins{}
// word definitions
c.Dictionary.AddWord(":", Word{Name: ":", Impl: b.Colon(c)})
c.Dictionary.AddWord(";", Word{Name: ";", Impl: b.Semicolon(c), Immediate: true})
// comments and strings
c.Dictionary.AddWord("(", Word{Name: "(", Impl: b.OpenComment(c), Immediate: true})
c.Dictionary.AddWord(")", Word{Name: ")", Impl: b.CloseComment(c), Immediate: true})
c.Dictionary.AddWord(`\`, Word{Name: `\`, Impl: b.EOLComment(c), Immediate: true})
c.Dictionary.AddWord(`."`, Word{Name: `."`, Impl: b.OpenQuote(c.Output, c, '"')})
c.Dictionary.AddWord(`"`, Word{Name: `"`, Impl: b.CloseQuote(c)})
c.Dictionary.AddWord(`.(`, Word{Name: `.(`, Impl: b.OpenQuote(c.Output, c, ')'), Immediate: true})
c.Dictionary.AddWord(`S"`, Word{Name: `S"`, Impl: b.StringBuffer(c, '"')})
c.Dictionary.AddWord("LOAD", Word{Name: "LOAD", Impl: b.Load(c)})
// math
c.Dictionary.AddWord("+", Word{Name: "+", Impl: b.Add(c.Stack)})
c.Dictionary.AddWord("-", Word{Name: "-", Impl: b.Sub(c.Stack)})
c.Dictionary.AddWord("*", Word{Name: "*", Impl: b.Mul(c.Stack)})
c.Dictionary.AddWord("/", Word{Name: "/", Impl: b.Div(c.Stack)})
c.Dictionary.AddWord("MOD", Word{Name: "MOD", Impl: b.Mod(c.Stack)})
c.Dictionary.AddWord("/MOD", Word{Name: "/MOD", Source: []string{"2DUP", "MOD", "ROT", "ROT", "/"}})
c.Dictionary.AddWord("1+", Word{Name: "1+", Source: []string{"1", "+"}})
c.Dictionary.AddWord("1-", Word{Name: "1-", Source: []string{"1", "-"}})
c.Dictionary.AddWord("ABS", Word{Name: "ABS", Source: []string{"DUP", "0<", "IF", "NEGATE", "THEN"}})
c.Dictionary.AddWord("NEGATE", Word{Name: "NEGATE", Source: []string{"-1", "*"}})
c.Dictionary.AddWord("MAX", Word{Name: "MAX", Source: []string{"2DUP", "<", "IF", "SWAP", "THEN", "DROP"}})
c.Dictionary.AddWord("MIN", Word{Name: "MIN", Source: []string{"2DUP", ">", "IF", "SWAP", "THEN", "DROP"}})
// output
c.Dictionary.AddWord(".", Word{Name: ".", Impl: b.Print(c.Output, c.Stack)})
c.Dictionary.AddWord("EMIT", Word{Name: "EMIT", Impl: b.Emit(c.Output, c.Stack)})
c.Dictionary.AddWord("CR", Word{Name: "CR", Source: []string{"10", "EMIT"}}) // emit a newline
// logic
c.Dictionary.AddWord("=", Word{Name: "=", Impl: b.Eq(c.Stack)})
c.Dictionary.AddWord("0=", Word{Name: "0=", Source: []string{"0", "="}})
c.Dictionary.AddWord("<>", Word{Name: "<>", Impl: b.NEq(c.Stack)})
c.Dictionary.AddWord("0<>", Word{Name: "0<>", Source: []string{"0=", "0="}})
c.Dictionary.AddWord(">", Word{Name: ">", Impl: b.Gt(c.Stack)})
c.Dictionary.AddWord("<", Word{Name: "<", Impl: b.Lt(c.Stack)})
c.Dictionary.AddWord(">=", Word{Name: ">=", Impl: b.GtEq(c.Stack)})
c.Dictionary.AddWord("<=", Word{Name: "<=", Impl: b.LtEq(c.Stack)})
c.Dictionary.AddWord("0<", Word{Name: "0<", Source: []string{"0", "<"}})
c.Dictionary.AddWord("0>", Word{Name: "0>", Source: []string{"0", ">"}})
// stack manipulation
c.Dictionary.AddWord("DUP", Word{Name: "DUP", Impl: b.Dup(c.Stack)})
c.Dictionary.AddWord("?DUP", Word{Name: "?DUP", Source: []string{"DUP", "0<>", "IF", "DUP", "THEN"}})
c.Dictionary.AddWord("SWAP", Word{Name: "SWAP", Impl: b.Swap(c.Stack)})
c.Dictionary.AddWord("OVER", Word{Name: "OVER", Impl: b.Over(c.Stack)})
c.Dictionary.AddWord("DROP", Word{Name: "DROP", Impl: b.Drop(c.Stack)})
c.Dictionary.AddWord("ROT", Word{Name: "ROT", Impl: b.Rot(c.Stack)})
c.Dictionary.AddWord("PICK", Word{Name: "PICK", Impl: b.Pick(c.Stack)})
c.Dictionary.AddWord("NIP", Word{Name: "NIP", Source: []string{"SWAP", "DROP"}})
c.Dictionary.AddWord("TUCK", Word{Name: "TUCK", Source: []string{"SWAP", "OVER"}})
// paired stack manipulation
c.Dictionary.AddWord("2DROP", Word{Name: "2DROP", Source: []string{"DROP", "DROP"}})
c.Dictionary.AddWord("2DUP", Word{Name: "2DUP", Source: []string{"OVER", "OVER"}})
c.Dictionary.AddWord("2OVER", Word{Name: "2OVER", Source: []string{"3", "PICK", "3", "PICK"}})
// memory access with variables and constants
c.Dictionary.AddWord("VARIABLE", Word{Name: "VARIABLE", Impl: b.Variable(c)})
c.Dictionary.AddWord("CONSTANT", Word{Name: "CONSTANT", Impl: b.Constant(c)})
c.Dictionary.AddWord("!", Word{Name: "!", Impl: b.Store(c)})
c.Dictionary.AddWord("@", Word{Name: "@", Impl: b.Fetch(c)})
// debugging
c.Dictionary.AddWord("WORDS", Word{Name: "WORDS", Impl: b.Words(c.Output, c.Dictionary)})
c.Dictionary.AddWord("SEE", Word{Name: "SEE", Impl: b.See(c.Output, c.RStack, c.Dictionary)})
c.Dictionary.AddWord("FLAGS", Word{Name: "FLAGS", Impl: b.Flags(c.Output, c)})
c.Dictionary.AddWord(".S", Word{Name: ".S", Impl: b.Debug(c.Output, c.Stack)})
c.Dictionary.AddWord(".R", Word{Name: ".R", Impl: b.Debug(c.Output, c.RStack)})
c.Dictionary.AddWord(".I", Word{Name: ".I", Impl: b.Debug(c.Output, c.IfStack)})
c.Dictionary.AddWord("DEPTH", Word{Name: "DEPTH", Impl: b.Depth(c.Stack)})
c.Dictionary.AddWord("R>", Word{Name: "R>", Impl: b.RFrom(c.Stack, c.RStack)})
c.Dictionary.AddWord(">R", Word{Name: ">R", Impl: b.ToR(c.Stack, c.RStack)})
c.Dictionary.AddWord("R@", Word{Name: "R@", Impl: b.RFetch(c.Stack, c.RStack)})
// branching
c.Dictionary.AddWord("IF", Word{Name: "IF", Impl: b.If(c.Stack, c.IfStack), BranchCheck: true})
c.Dictionary.AddWord("ELSE", Word{Name: "ELSE", Impl: b.Else(c.IfStack), BranchCheck: true})
c.Dictionary.AddWord("THEN", Word{Name: "THEN", Impl: b.Then(c.IfStack), BranchCheck: true})
c.Dictionary.AddWord("DO", Word{Name: "DO", Impl: b.Do(c.Stack, c.RStack)})
c.Dictionary.AddWord("LOOP", Word{Name: "LOOP", Impl: b.Loop(c.Stack, c.RStack)})
c.Dictionary.AddWord("I", Word{Name: "I", Impl: b.I(c.Stack, c.RStack)})
// exit
c.Dictionary.AddWord("BYE", Word{Name: "BYE", Impl: b.Quit()})
}