/* Copyright © 2023 Thomas von Dein This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ package main import ( "errors" "fmt" "os" "regexp" "strconv" "strings" "github.com/chzyer/readline" ) type Calc struct { debug bool batch bool stdin bool stack *Stack history []string completer readline.AutoCompleter interpreter *Interpreter Space *regexp.Regexp Constants []string LuaFunctions []string Funcalls Funcalls BatchFuncalls Funcalls } // help for lua functions will be added dynamically const Help string = `Available commands: batch toggle batch mode debug toggle debug output dump display the stack contents clear clear the whole stack shift remove the last element of the stack reverse reverse the stack elements swap exchange the last two elements history display calculation history help|? show this message quit|exit|c-d|c-c exit program Operators: basic operators: + - x * / ^ (* is an alias of x) Percent functions: % percent %- substract percent %+ add percent Math functions (see https://pkg.go.dev/math): mod sqrt abs acos acosh asin asinh atan atan2 atanh cbrt ceil cos cosh erf erfc erfcinv erfinv exp exp2 expm1 floor gamma ilogb j0 j1 log log10 log1p log2 logb pow round roundtoeven sin sinh tan tanh trunc y0 y1 copysign dim hypot Batch functions: sum sum of all values (alias: +) max max of all values min min of all values mean mean of all values (alias: avg) median median of all values` // commands, constants and operators, defined here to feed completion // and our mode switch in Eval() dynamically const ( Commands string = `dump reverse debug undebug clear batch shift undo help history manual exit quit swap` Constants string = `Pi Phi Sqrt2 SqrtE SqrtPi SqrtPhi Ln2 Log2E Ln10 Log10E` ) // That way we can add custom functions to completion func GetCompleteCustomFunctions() func(string) []string { return func(line string) []string { completions := []string{} for luafunc := range LuaFuncs { completions = append(completions, luafunc) } completions = append(completions, strings.Split(Commands, " ")...) completions = append(completions, strings.Split(Constants, " ")...) return completions } } func (c *Calc) GetCompleteCustomFuncalls() func(string) []string { return func(line string) []string { completions := []string{} for function := range c.Funcalls { completions = append(completions, function) } for function := range c.BatchFuncalls { completions = append(completions, function) } return completions } } func NewCalc() *Calc { c := Calc{stack: NewStack(), debug: false} c.Funcalls = DefineFunctions() c.BatchFuncalls = DefineBatchFunctions() c.completer = readline.NewPrefixCompleter( // custom lua functions readline.PcItemDynamic(GetCompleteCustomFunctions()), readline.PcItemDynamic(c.GetCompleteCustomFuncalls()), ) c.Space = regexp.MustCompile(`\s+`) // pre-calculate mode switching arrays c.Constants = strings.Split(Constants, " ") for name := range LuaFuncs { c.LuaFunctions = append(c.LuaFunctions, name) } return &c } // setup the interpreter, called from main() func (c *Calc) SetInt(I *Interpreter) { c.interpreter = I } func (c *Calc) ToggleDebug() { c.debug = !c.debug c.stack.ToggleDebug() fmt.Printf("debugging set to %t\n", c.debug) } func (c *Calc) ToggleBatch() { c.batch = !c.batch fmt.Printf("batchmode set to %t\n", c.batch) } func (c *Calc) ToggleStdin() { c.stdin = !c.stdin } func (c *Calc) Prompt() string { p := "\033[31m»\033[0m " b := "" if c.batch { b = "->batch" } d := "" v := "" if c.debug { d = "->debug" v = fmt.Sprintf("/rev%d", c.stack.rev) } return fmt.Sprintf("rpn%s%s [%d%s]%s", b, d, c.stack.Len(), v, p) } // the actual work horse, evaluate a line of calc command[s] func (c *Calc) Eval(line string) { line = strings.TrimSpace(line) if line == "" { return } for _, item := range c.Space.Split(line, -1) { num, err := strconv.ParseFloat(item, 64) if err == nil { c.stack.Backup() c.stack.Push(num) } else { if contains(c.Constants, item) { // put the constant onto the stack c.stack.Backup() c.stack.Push(const2num(item)) continue } if _, ok := c.Funcalls[item]; ok { if err := c.DoFuncall(item); err != nil { fmt.Println(err) } else { c.Result() } continue } if c.batch { if _, ok := c.BatchFuncalls[item]; ok { if err := c.DoFuncall(item); err != nil { fmt.Println(err) } else { c.Result() } continue } } else { if _, ok := c.BatchFuncalls[item]; ok { fmt.Println("only supported in batch mode") continue } } if contains(c.LuaFunctions, item) { // user provided custom lua functions c.luafunc(item) continue } // management commands switch item { case "?": fallthrough case "help": fmt.Println(Help) fmt.Println("Lua functions:") for name, function := range LuaFuncs { fmt.Printf("%-20s %s\n", name, function.help) } case "dump": c.stack.Dump() case "debug": c.ToggleDebug() case "undebug": c.debug = false case "batch": c.ToggleBatch() case "clear": c.stack.Backup() c.stack.Clear() case "shift": c.stack.Backup() c.stack.Shift() case "reverse": c.stack.Backup() c.stack.Reverse() case "swap": if c.stack.Len() < 2 { fmt.Println("stack too small, can't swap") } else { c.stack.Backup() c.stack.Swap() } case "undo": c.stack.Restore() case "history": for _, entry := range c.history { fmt.Println(entry) } case "exit": fallthrough case "quit": os.Exit(0) case "manual": man() default: fmt.Println("unknown command or operator!") } } } } // Execute a math function, check if it is defined just in case func (c *Calc) DoFuncall(funcname string) error { var function *Funcall if c.batch { function = c.BatchFuncalls[funcname] } else { function = c.Funcalls[funcname] } if function == nil { panic("function not defined but in completion list") } var args Numbers batch := false if function.Expectargs == -1 { // batch mode, but always < stack len, so check first args = c.stack.All() batch = true } else { // this is way better behavior than just using 0 in place of // non-existing stack items if c.stack.Len() < function.Expectargs { return errors.New("stack doesn't provide enough arguments") } args = c.stack.Last(function.Expectargs) } c.Debug(fmt.Sprintf("calling %s with args: %v", funcname, args)) // the actual lambda call, so to say. We provide a slice of // the requested size, fetched from the stack (but not popped // yet!) R := function.Func(args) if R.Err != nil { // leave the stack untouched in case of any error return R.Err } if batch { // get rid of stack c.stack.Clear() } else { // remove operands c.stack.Shift(function.Expectargs) } // save result c.stack.Push(R.Res) // thanks a lot c.SetHistory(funcname, args, R.Res) return nil } // we need to add a history entry for each operation func (c *Calc) SetHistory(op string, args Numbers, res float64) { c.History("%s %s -> %f", list2str(args), op, res) } // just a textual representation of math operations, viewable with the // history command func (c *Calc) History(format string, args ...any) { c.history = append(c.history, fmt.Sprintf(format, args...)) } // print the result func (c *Calc) Result() float64 { if !c.stdin { fmt.Print("= ") } fmt.Println(c.stack.Last()[0]) return c.stack.Last()[0] } func (c *Calc) Debug(msg string) { if c.debug { fmt.Printf("DEBUG(calc): %s\n", msg) } } func (c *Calc) luafunc(funcname string) { // called from calc loop var x float64 var err error switch c.interpreter.FuncNumArgs(funcname) { case 1: x, err = c.interpreter.CallLuaFunc(funcname, c.stack.Last()) case 2: x, err = c.interpreter.CallLuaFunc(funcname, c.stack.Last(2)) case -1: x, err = c.interpreter.CallLuaFunc(funcname, c.stack.All()) default: x, err = 0, errors.New("invalid number of argument requested") } if err != nil { fmt.Println(err) return } c.stack.Backup() switch c.interpreter.FuncNumArgs(funcname) { case 1: a := c.stack.Pop() c.History("%s(%f) = %f", funcname, a, x) case 2: a := c.stack.Pop() b := c.stack.Pop() c.History("%s(%f,%f) = %f", funcname, a, b, x) case -1: c.stack.Clear() c.History("%s(*) = %f", funcname, x) } c.stack.Push(x) c.Result() }