go-calc/calc/cli/mapping.go

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package cli
import (
"regexp"
"strconv"
"gitea.zaclys.com/bvaudour/gob/option"
"gitea.zaclys.net/bvaudour/calc/calc"
)
var (
otherFunctions = map[string]func() option.Option[error]{
"h": printHelp,
"q": quit,
}
calcFunctions = map[string]calc.CalcFunc{
"op": printOption,
"of": fixPrecision(true),
"oa": fixPrecision(false),
"p": printLast,
"P": printStack,
"c": calc.Pop,
"C": calc.Reset,
"d": calc.Duplicate,
"D": calc.DuplicateStack,
"r": calc.Reverse,
"R": calc.ReverseStack,
"s": calc.Sort,
"S": calc.SortDesc,
":P": printRegistries,
":C": calc.ResetRegistries,
";C": calc.ResetMacros,
"|": calc.Abs,
"++": calc.Inc,
"--": calc.Dec,
"inv": calc.Inv,
"+": calc.Add,
"-": calc.Sub,
"": calc.Sub,
"*": calc.Mul,
"×": calc.Mul,
"/": calc.Div,
"÷": calc.Div,
"//": calc.Quo,
"%": calc.Rem,
"²": calc.Square,
"^": calc.Pow,
"v": calc.Sqrt,
"√": calc.Sqrt,
"vn": calc.Sqrtn,
"!": calc.Fact,
"<=>": calc.Cmp,
"=": calc.Eq,
"<>": calc.Ne,
"≠": calc.Ne,
">": calc.Gt,
">=": calc.Ge,
"≥": calc.Ge,
"<=": calc.Le,
"≤": calc.Le,
"cb": calc.ToBase(2),
"co": calc.ToBase(8),
"cx": calc.ToBase(16),
"ci": calc.ToInteger[uint](),
"cd": calc.ToDecimal[uint](),
"cs": calc.ToScientific[uint](),
"cf": calc.ToFraction[uint](),
">>": calc.Rsh,
"<<": calc.Lsh,
"min": calc.Min,
"max": calc.Max,
"sum": calc.Sum,
"moy": calc.Mean,
"med": calc.Median,
"mod": calc.Mode,
"var": calc.Variance,
"dev": calc.StdDeviation,
"l": func(c *calc.Calc) (err option.Option[error]) {
c.Len()
return
},
"n": calc.NoAction,
}
wordCalcFunctions = map[string]calc.WordCalcFunc{
`^:p\w+$`: printRegistry,
`^:c\w+$`: calc.ResetRegistry,
`^:l\w+$`: calc.Load,
`^:s\w+$`: calc.Store,
`^:S\w+$`: calc.StoreStack,
`^;x\w+$`: execMacro,
}
intCalcFunctions = map[string]calc.IntCalcFunc[uint64]{
`^c\d+$`: func(base ...uint64) calc.CalcFunc {
if len(base) > 0 {
return calc.ToBase(base[0])
}
return func(c *calc.Calc) (err option.Option[error]) { return }
},
`^ci\d+$`: calc.ToInteger[uint64],
`^cd\d+$`: calc.ToDecimal[uint64],
`^cs\d+$`: calc.ToScientific[uint64],
`^cf\d+$`: calc.ToFraction[uint64],
`^of\d+$`: precision[uint64](true),
`^oa\d+$`: precision[uint64](false),
}
cliFunctions = map[string]CliFunc{
";P": printMacros,
"[": startMacro,
"?": startAlt,
}
wordCliFunctions = map[string]WordCliFunc{
`^;p\w+$`: printMacro,
`^;c\w+$`: resetMacro,
`^\]\w+$`: endMacro,
}
needExec = map[string]bool{
"[": true,
`^\]\w+$`: true,
}
)
func searchWordCalcFunction(arg string) (cb calc.CalcFunc, ok bool) {
for k, f := range wordCalcFunctions {
if ok = regexp.MustCompile(k).MatchString(arg); ok {
cb = f(arg[2:])
break
}
}
return
}
func searchIntCalcFunction(arg string) (cb calc.CalcFunc, ok bool) {
for k, f := range intCalcFunctions {
if ok = regexp.MustCompile(k).MatchString(arg); ok {
var d uint64
var err error
if d, err = strconv.ParseUint(arg[1:], 10, 64); err != nil {
d, _ = strconv.ParseUint(arg[2:], 10, 64)
}
cb = f(d)
break
}
}
return
}
func searchWordCliFunction(arg string) (cb CliFunc, ok, execNow bool) {
for k, f := range wordCliFunctions {
if ok = regexp.MustCompile(k).MatchString(arg); ok {
if arg[0] == ']' {
cb = f(arg[1:])
} else {
cb = f(arg[2:])
}
execNow = needExec[k]
break
}
}
return
}
func searchCalcFunction(arg string) (cb calc.CalcFunc, ok bool) {
if cb, ok = calcFunctions[arg]; !ok {
if cb, ok = searchWordCalcFunction(arg); !ok {
cb, ok = searchIntCalcFunction(arg)
}
}
return
}
func searchCliFunction(arg string) (cb CliFunc, ok, execNow bool) {
if cb, ok = cliFunctions[arg]; !ok {
cb, ok, execNow = searchWordCliFunction(arg)
} else {
execNow = needExec[arg]
}
return
}