// Copyright (C) 2017 Sebastian Dröge // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use muldiv::MulDiv; use std::convert::TryFrom; use std::ops; use thiserror::Error; use ClockTime; use Format; #[derive(PartialEq, Eq, Hash, Clone, Copy, Debug)] #[cfg_attr(feature = "ser_de", derive(Serialize, Deserialize))] pub enum GenericFormattedValue { Undefined(Undefined), Default(Default), Bytes(Bytes), Time(ClockTime), Buffers(Buffers), Percent(Percent), Other(Format, i64), } #[derive(PartialEq, Eq, PartialOrd, Ord, Hash, Clone, Copy, Debug, Default)] pub struct Undefined(pub i64); #[derive(PartialEq, Eq, PartialOrd, Ord, Hash, Clone, Copy, Debug, Default)] pub struct Default(pub Option); #[derive(PartialEq, Eq, PartialOrd, Ord, Hash, Clone, Copy, Debug, Default)] pub struct Bytes(pub Option); pub type Time = ClockTime; #[derive(PartialEq, Eq, PartialOrd, Ord, Hash, Clone, Copy, Debug, Default)] pub struct Buffers(pub Option); #[derive(PartialEq, Eq, PartialOrd, Ord, Hash, Clone, Copy, Debug, Default)] pub struct Percent(pub Option); #[derive(Clone, Copy, Debug, PartialEq, Eq, Error)] #[error("invalid generic value format")] pub struct TryFromGenericFormattedValueError(()); pub trait FormattedValue: Copy + Clone + Sized + Into + 'static { fn get_default_format() -> Format; fn get_format(&self) -> Format; unsafe fn from_raw(format: Format, value: i64) -> Self; unsafe fn to_raw_value(&self) -> i64; } pub trait SpecificFormattedValue: FormattedValue + TryFrom {} impl FormattedValue for GenericFormattedValue { fn get_default_format() -> Format { Format::Undefined } fn get_format(&self) -> Format { self.get_format() } unsafe fn from_raw(format: Format, value: i64) -> Self { GenericFormattedValue::new(format, value) } unsafe fn to_raw_value(&self) -> i64 { self.get_value() } } impl GenericFormattedValue { pub fn new(format: Format, value: i64) -> Self { skip_assert_initialized!(); match format { Format::Undefined => GenericFormattedValue::Undefined(Undefined(value)), Format::Default => GenericFormattedValue::Default(if value == -1 { Default(None) } else { Default(Some(value as u64)) }), Format::Bytes => GenericFormattedValue::Bytes(if value == -1 { Bytes(None) } else { Bytes(Some(value as u64)) }), Format::Time => GenericFormattedValue::Time(if value == -1 { ClockTime::none() } else { ClockTime::from_nseconds(value as u64) }), Format::Buffers => GenericFormattedValue::Buffers(if value == -1 { Buffers(None) } else { Buffers(Some(value as u64)) }), Format::Percent => { GenericFormattedValue::Percent(unsafe { Percent::from_raw(format, value) }) } Format::__Unknown(_) => GenericFormattedValue::Other(format, value), } } pub fn get_format(&self) -> Format { match *self { GenericFormattedValue::Undefined(_) => Format::Undefined, GenericFormattedValue::Default(_) => Format::Default, GenericFormattedValue::Bytes(_) => Format::Bytes, GenericFormattedValue::Time(_) => Format::Time, GenericFormattedValue::Buffers(_) => Format::Buffers, GenericFormattedValue::Percent(_) => Format::Percent, GenericFormattedValue::Other(f, _) => f, } } pub fn get_value(&self) -> i64 { match *self { GenericFormattedValue::Undefined(v) => v.0, GenericFormattedValue::Default(v) => v.map(|v| v as i64).unwrap_or(-1), GenericFormattedValue::Bytes(v) => v.map(|v| v as i64).unwrap_or(-1), GenericFormattedValue::Time(v) => v.map(|v| v as i64).unwrap_or(-1), GenericFormattedValue::Buffers(v) => v.map(|v| v as i64).unwrap_or(-1), GenericFormattedValue::Percent(v) => v.map(i64::from).unwrap_or(-1), GenericFormattedValue::Other(_, v) => v, } } } macro_rules! impl_op_same( ($name:ident, $op:ident, $op_name:ident, $op_assign:ident, $op_assign_name:ident, $e:expr) => { impl ops::$op<$name> for $name { type Output = $name; fn $op_name(self, other: $name) -> $name { match (self.0, other.0) { (Some(a), Some(b)) => $name($e(a, b)), _ => $name(None), } } } impl<'a> ops::$op<&'a $name> for $name { type Output = $name; fn $op_name(self, other: &'a $name) -> $name { self.$op_name(*other) } } impl<'a> ops::$op<$name> for &'a $name { type Output = $name; fn $op_name(self, other: $name) -> $name { (*self).$op_name(other) } } impl<'a, 'b> ops::$op<&'a $name> for &'b $name { type Output = $name; fn $op_name(self, other: &'a $name) -> $name { (*self).$op_name(*other) } } impl ops::$op_assign<$name> for $name { fn $op_assign_name(&mut self, other: $name) { match (self.0, other.0) { (Some(a), Some(b)) => self.0 = $e(a, b), _ => self.0 = None, } } } impl<'a> ops::$op_assign<&'a $name> for $name { fn $op_assign_name(&mut self, other: &'a $name) { self.$op_assign_name(*other) } } }; ); macro_rules! impl_op_u64( ($name:ident, $op:ident, $op_name:ident, $op_assign:ident, $op_assign_name:ident, $e:expr) => { impl ops::$op for $name { type Output = $name; fn $op_name(self, other: u64) -> $name { match self.0 { Some(a) => $name($e(a, other)), _ => $name(None), } } } impl<'a> ops::$op<&'a u64> for $name { type Output = $name; fn $op_name(self, other: &'a u64) -> $name { self.$op_name(*other) } } impl<'a> ops::$op for &'a $name { type Output = $name; fn $op_name(self, other: u64) -> $name { (*self).$op_name(other) } } impl<'a, 'b> ops::$op<&'a u64> for &'b $name { type Output = $name; fn $op_name(self, other: &'a u64) -> $name { self.$op_name(*other) } } impl ops::$op<$name> for u64 { type Output = $name; fn $op_name(self, other: $name) -> $name { other.$op_name(self) } } impl<'a> ops::$op<&'a $name> for u64 { type Output = $name; fn $op_name(self, other: &'a $name) -> $name { (*other).$op_name(self) } } impl<'a> ops::$op<$name> for &'a u64 { type Output = $name; fn $op_name(self, other: $name) -> $name { other.$op_name(*self) } } impl<'a, 'b> ops::$op<&'a $name> for &'b u64 { type Output = $name; fn $op_name(self, other: &'a $name) -> $name { (*other).$op_name(*self) } } impl ops::$op_assign for $name { fn $op_assign_name(&mut self, other: u64) { match self.0 { Some(a) => self.0 = $e(a, other), _ => self.0 = None, } } } impl<'a> ops::$op_assign<&'a u64> for $name { fn $op_assign_name(&mut self, other: &'a u64) { self.$op_assign_name(*other) } } }; ); macro_rules! impl_format_value_traits( ($name:ident, $format:ident, $format_value:ident) => { impl FormattedValue for $name { fn get_default_format() -> Format { Format::$format } fn get_format(&self) -> Format { Format::$format } unsafe fn from_raw(format: Format, value: i64) -> Self { debug_assert_eq!(format, Format::$format); if value == -1 { $name(None) } else { $name(Some(value as u64)) } } unsafe fn to_raw_value(&self) -> i64 { self.0.map(|v| v as i64).unwrap_or(-1) } } impl From<$name> for GenericFormattedValue { fn from(v: $name) -> GenericFormattedValue { skip_assert_initialized!(); GenericFormattedValue::$format_value(v) } } impl TryFrom for $name { type Error = TryFromGenericFormattedValueError; fn try_from(v: GenericFormattedValue) -> Result<$name, TryFromGenericFormattedValueError> { skip_assert_initialized!(); if let GenericFormattedValue::$format_value(v) = v { Ok(v) } else { Err(TryFromGenericFormattedValueError(())) } } } impl SpecificFormattedValue for $name { } impl From for $name { fn from(v: u64) -> $name { skip_assert_initialized!(); $name(Some(v)) } } impl From> for $name { fn from(v: Option) -> $name { skip_assert_initialized!(); $name(v) } } impl Into> for $name { fn into(self) -> Option { self.0 } } impl ops::Deref for $name { type Target = Option; fn deref(&self) -> &Option { &self.0 } } impl ops::DerefMut for $name { fn deref_mut(&mut self) -> &mut Option { &mut self.0 } } impl AsRef> for $name { fn as_ref(&self) -> &Option { &self.0 } } impl AsMut> for $name { fn as_mut(&mut self) -> &mut Option { &mut self.0 } } impl_op_same!($name, Add, add, AddAssign, add_assign, |a: u64, b: u64| a.checked_add(b)); impl_op_same!($name, Sub, sub, SubAssign, sub_assign, |a: u64, b: u64| a.checked_sub(b)); impl_op_same!($name, Mul, mul, MulAssign, mul_assign, |a: u64, b: u64| a.checked_mul(b)); impl_op_same!($name, Div, div, DivAssign, div_assign, |a: u64, b: u64| a.checked_div(b)); impl_op_same!($name, Rem, rem, RemAssign, rem_assign, |a: u64, b: u64| a.checked_rem(b)); impl_op_u64!($name, Mul, mul, MulAssign, mul_assign, |a: u64, b: u64| a.checked_mul(b)); impl_op_u64!($name, Div, div, DivAssign, div_assign, |a: u64, b: u64| a.checked_div(b)); impl_op_u64!($name, Rem, rem, RemAssign, rem_assign, |a: u64, b: u64| a.checked_rem(b)); impl MulDiv<$name> for $name { type Output = $name; fn mul_div_floor(self, num: $name, denom: $name) -> Option { match (self.0, num.0, denom.0) { (Some(s), Some(n), Some(d)) => s.mul_div_floor(n, d).map(|v| $name(Some(v))), _ => Some($name(None)), } } fn mul_div_round(self, num: $name, denom: $name) -> Option { match (self.0, num.0, denom.0) { (Some(s), Some(n), Some(d)) => s.mul_div_round(n, d).map(|v| $name(Some(v))), _ => Some($name(None)), } } fn mul_div_ceil(self, num: $name, denom: $name) -> Option { match (self.0, num.0, denom.0) { (Some(s), Some(n), Some(d)) => s.mul_div_ceil(n, d).map(|v| $name(Some(v))), _ => Some($name(None)), } } } impl<'a> MulDiv<&'a $name> for $name { type Output = $name; fn mul_div_floor(self, num: &$name, denom: &$name) -> Option { self.mul_div_floor(*num, *denom) } fn mul_div_round(self, num: &$name, denom: &$name) -> Option { self.mul_div_round(*num, *denom) } fn mul_div_ceil(self, num: &$name, denom: &$name) -> Option { self.mul_div_ceil(*num, *denom) } } impl<'a> MulDiv<$name> for &'a $name { type Output = $name; fn mul_div_floor(self, num: $name, denom: $name) -> Option { (*self).mul_div_floor(num, denom) } fn mul_div_round(self, num: $name, denom: $name) -> Option { (*self).mul_div_round(num, denom) } fn mul_div_ceil(self, num: $name, denom: $name) -> Option { (*self).mul_div_ceil(num, denom) } } impl<'a, 'b> MulDiv<&'b $name> for &'a $name { type Output = $name; fn mul_div_floor(self, num: &$name, denom: &$name) -> Option { (*self).mul_div_floor(*num, *denom) } fn mul_div_round(self, num: &$name, denom: &$name) -> Option { (*self).mul_div_round(*num, *denom) } fn mul_div_ceil(self, num: &$name, denom: &$name) -> Option { (*self).mul_div_ceil(*num, *denom) } } impl<'a> MulDiv for $name { type Output = $name; fn mul_div_floor(self, num: u64, denom: u64) -> Option { self.mul_div_floor($name(Some(num)), $name(Some(denom))) } fn mul_div_round(self, num: u64, denom: u64) -> Option { self.mul_div_round($name(Some(num)), $name(Some(denom))) } fn mul_div_ceil(self, num: u64, denom: u64) -> Option { self.mul_div_ceil($name(Some(num)), $name(Some(denom))) } } impl<'a> MulDiv<&'a u64> for $name { type Output = $name; fn mul_div_floor(self, num: &u64, denom: &u64) -> Option { self.mul_div_floor(*num, *denom) } fn mul_div_round(self, num: &u64, denom: &u64) -> Option { self.mul_div_round(*num, *denom) } fn mul_div_ceil(self, num: &u64, denom: &u64) -> Option { self.mul_div_ceil(*num, *denom) } } impl<'a> MulDiv for &'a $name { type Output = $name; fn mul_div_floor(self, num: u64, denom: u64) -> Option { (*self).mul_div_floor(num, denom) } fn mul_div_round(self, num: u64, denom: u64) -> Option { (*self).mul_div_round(num, denom) } fn mul_div_ceil(self, num: u64, denom: u64) -> Option { (*self).mul_div_ceil(num, denom) } } impl<'a, 'b> MulDiv<&'a u64> for &'b $name { type Output = $name; fn mul_div_floor(self, num: &u64, denom: &u64) -> Option { (*self).mul_div_floor(*num, *denom) } fn mul_div_round(self, num: &u64, denom: &u64) -> Option { (*self).mul_div_round(*num, *denom) } fn mul_div_ceil(self, num: &u64, denom: &u64) -> Option { (*self).mul_div_ceil(*num, *denom) } } }; ); impl_format_value_traits!(Default, Default, Default); impl_format_value_traits!(Bytes, Bytes, Bytes); impl_format_value_traits!(ClockTime, Time, Time); impl_format_value_traits!(Buffers, Buffers, Buffers); impl FormattedValue for Undefined { fn get_default_format() -> Format { Format::Undefined } fn get_format(&self) -> Format { Format::Undefined } unsafe fn from_raw(format: Format, value: i64) -> Self { debug_assert_eq!(format, Format::Undefined); Undefined(value) } unsafe fn to_raw_value(&self) -> i64 { self.0 } } impl From for GenericFormattedValue { fn from(v: Undefined) -> GenericFormattedValue { skip_assert_initialized!(); GenericFormattedValue::Undefined(v) } } impl TryFrom for Undefined { type Error = TryFromGenericFormattedValueError; fn try_from(v: GenericFormattedValue) -> Result { skip_assert_initialized!(); if let GenericFormattedValue::Undefined(v) = v { Ok(v) } else { Err(TryFromGenericFormattedValueError(())) } } } impl SpecificFormattedValue for Undefined {} impl From for Undefined { fn from(v: i64) -> Undefined { skip_assert_initialized!(); Undefined(v) } } impl Into for Undefined { fn into(self) -> i64 { self.0 } } impl ops::Deref for Undefined { type Target = i64; fn deref(&self) -> &i64 { &self.0 } } impl ops::DerefMut for Undefined { fn deref_mut(&mut self) -> &mut i64 { &mut self.0 } } impl AsRef for Undefined { fn as_ref(&self) -> &i64 { &self.0 } } impl AsMut for Undefined { fn as_mut(&mut self) -> &mut i64 { &mut self.0 } } impl FormattedValue for Percent { fn get_default_format() -> Format { Format::Percent } fn get_format(&self) -> Format { Format::Percent } unsafe fn from_raw(format: Format, value: i64) -> Self { debug_assert_eq!(format, Format::Percent); if value < 0 || value > gst_sys::GST_FORMAT_PERCENT_MAX { Percent(None) } else { Percent(Some(value as u32)) } } unsafe fn to_raw_value(&self) -> i64 { self.0.map(|v| v as i64).unwrap_or(-1) } } impl From for GenericFormattedValue { fn from(v: Percent) -> GenericFormattedValue { skip_assert_initialized!(); GenericFormattedValue::Percent(v) } } impl TryFrom for Percent { type Error = TryFromGenericFormattedValueError; fn try_from(v: GenericFormattedValue) -> Result { skip_assert_initialized!(); if let GenericFormattedValue::Percent(v) = v { Ok(v) } else { Err(TryFromGenericFormattedValueError(())) } } } impl SpecificFormattedValue for Percent {} impl ops::Deref for Percent { type Target = Option; fn deref(&self) -> &Option { &self.0 } } impl ops::DerefMut for Percent { fn deref_mut(&mut self) -> &mut Option { &mut self.0 } } impl AsRef> for Percent { fn as_ref(&self) -> &Option { &self.0 } } impl AsMut> for Percent { fn as_mut(&mut self) -> &mut Option { &mut self.0 } } #[derive(Clone, Copy, Debug, PartialEq, Eq, Error)] #[error("value out of range")] pub struct TryPercentFromFloatError(()); impl TryFrom for Percent { type Error = TryPercentFromFloatError; fn try_from(v: f64) -> Result { skip_assert_initialized!(); if v < 0.0 || v > 1.0 { Err(TryPercentFromFloatError(())) } else { Ok(Percent(Some( (v * gst_sys::GST_FORMAT_PERCENT_SCALE as f64).round() as u32, ))) } } } impl TryFrom for Percent { type Error = TryPercentFromFloatError; fn try_from(v: f32) -> Result { skip_assert_initialized!(); if v < 0.0 || v > 1.0 { Err(TryPercentFromFloatError(())) } else { Ok(Percent(Some( (v * gst_sys::GST_FORMAT_PERCENT_SCALE as f32).round() as u32, ))) } } } #[cfg(test)] mod tests { #[test] fn test_clock_time() { ::init().unwrap(); let t1 = ::SECOND; let t2 = 2 * t1; let t3 = &t1 * 2; let mut t4 = t2 + t3; t4 += &t1; assert_eq!(t4.nanoseconds(), Some(5_000_000_000)); let t5 = t4 - 6 * ::SECOND; assert!(t5.is_none()); } }