const std = @import("../index.zig"); const math = std.math; const builtin = @import("builtin"); const TypeId = builtin.TypeId; const assert = std.debug.assert; pub fn log(comptime T: type, base: T, x: T) T { if (base == 2) { return math.log2(x); } else if (base == 10) { return math.log10(x); } else if ((@typeId(T) == TypeId.Float or @typeId(T) == TypeId.ComptimeFloat) and base == math.e) { return math.ln(x); } switch (@typeId(T)) { TypeId.ComptimeFloat => { return @typeOf(1.0)(math.ln(f64(x)) / math.ln(f64(base))); }, TypeId.ComptimeInt => { return @typeOf(1)(math.floor(math.ln(f64(x)) / math.ln(f64(base)))); }, builtin.TypeId.Int => { // TODO implement integer log without using float math return T(math.floor(math.ln(f64(x)) / math.ln(f64(base)))); }, builtin.TypeId.Float => { switch (T) { f32 => return f32(math.ln(f64(x)) / math.ln(f64(base))), f64 => return math.ln(x) / math.ln(f64(base)), else => @compileError("log not implemented for " ++ @typeName(T)), } }, else => { @compileError("log expects integer or float, found '" ++ @typeName(T) ++ "'"); }, } } test "math.log integer" { assert(log(u8, 2, 0x1) == 0); assert(log(u8, 2, 0x2) == 1); assert(log(i16, 2, 0x72) == 6); assert(log(u32, 2, 0xFFFFFF) == 23); assert(log(u64, 2, 0x7FF0123456789ABC) == 62); } test "math.log float" { const epsilon = 0.000001; assert(math.approxEq(f32, log(f32, 6, 0.23947), -0.797723, epsilon)); assert(math.approxEq(f32, log(f32, 89, 0.23947), -0.318432, epsilon)); assert(math.approxEq(f64, log(f64, 123897, 12389216414), 1.981724596, epsilon)); } test "math.log float_special" { assert(log(f32, 2, 0.2301974) == math.log2(f32(0.2301974))); assert(log(f32, 10, 0.2301974) == math.log10(f32(0.2301974))); assert(log(f64, 2, 213.23019799993) == math.log2(f64(213.23019799993))); assert(log(f64, 10, 213.23019799993) == math.log10(f64(213.23019799993))); }