# 筛子类型 [![badge](https://img.shields.io/endpoint.svg?url=https%3A%2F%2Fgezf7g7pd5.execute-api.ap-northeast-1.amazonaws.com%2Fdefault%2Fsource_up_to_date%3Fowner%3Derg-lang%26repos%3Derg%26ref%3Dmain%26path%3Ddoc/EN/compiler/refinement_subtyping.md%26commit_hash%3D06f8edc9e2c0cee34f6396fd7c64ec834ffb5352)](https://gezf7g7pd5.execute-api.ap-northeast-1.amazonaws.com/default/source_up_to_date?owner=erg-lang&repos=erg&ref=main&path=doc/EN/compiler/refinement_subtyping.md&commit_hash=06f8edc9e2c0cee34f6396fd7c64ec834ffb5352) ```python {I: Int | I >= 0} {S: StrWithLen N | N >= 1} {T: (Ratio, Ratio) | T.0 >= 0; T.1 >= 0} ``` Erg 通过将 Enum 和 Interval 类型转换为筛选类型来实现类型确定 ## 转换为筛型 在 [Refinement types] 一节中,我们说过区间类型和枚举类型是 refinement 类型的语法糖。每个转换如下 * {0} -> {I: Int | I == 0} * {0, 1} -> {I: Int | I == 0 or I == 1} * 1.._ -> {I: Int | I >= 1} * 1<.._ -> {I: Int | I > 1} -> {I: Int | I >= 2} * {0} or 1.._ -> {I: Int | I == 0 or I >= 1} * {0} or {-3, -2} or 1.._ -> {I: Int | I == 0 or (I == -2 or I == -3) or I >= 1} * {0} and {-3, 0} -> {I: Int | I == 0 and (I == -3 or I == 0)} * {0} not {-3, 0} or 1.._ -> {I: Int | I == 0 and not (I == -3 or I == 0) or I >= 1} ## 筛型检测 描述了一种用于确定筛类型 A 是否是另一筛类型 B 的子类型的算法。正式地,(所有)子类型定义如下: ```console A <: B <=> ∀a∈A; a∈B ``` 具体而言,应用以下推理规则。假定布尔表达式是简化的 * 间隔规则(从类型定义自动完成) * `Nat` => `{I: Int | I >= 0}` * 围捕规则 * `{I: Int | I < n}` => `{I: Int | I <= n-1}` * `{I: Int | I > n}` => `{I: Int | I >= n+1}` * `{R: Ratio | R < n}` => `{R: Ratio | R <= n-ε}` * `{R: Ratio | R > n}` => `{R: Ratio | R >= n+ε}` * 反转规则 * `{A not B}` => `{A and (not B)}` * 德摩根规则 * `{not (A or B)}` => `{not A and not B}` * `{not (A and B)}` => `{not A or not B}` * 分配规则 * `{A and (B or C)} <: D` => `{(A and B) or (A and C)} <: D` => `({A and B} <: D) and ( {A and C} <: D)` * `{(A or B) and C} <: D` => `{(C and A) or (C and B)} <: D` => `({C and A} <: D) and ( {C and B} <: D)` * `D <: {A or (B and C)}` => `D <: {(A or B) and (A or C)}` => `(D <: {A or B}) and ( D <: {A or C})` * `D <: {(A and B) or C}` => `D <: {(C or A) and (C or B)}` => `(D <: {C or A}) and ( D <: {C or B})` * `{A or B} <: C` => `({A} <: C) and ({B} <: C)` * `A <: {B and C}` => `(A <: {B}) and (A <: {C})` * 终止规则 * {I: T | ...} <: T = True * {} <: _ = True * _ <: {...} = True * {...} <: _ = False * _ <: {} == False * {I >= a and I <= b} (a < b) <: {I >= c} = (a >= c) * {I >= a and I <= b} (a < b) <: {I <= d} = (b <= d) * {I >= a} <: {I >= c or I <= d} (c >= d) = (a >= c) * {I <= b} <: {I >= c or I <= d} (c >= d) = (b <= d) * {I >= a and I <= b} (a <= b) <: {I >= c or I <= d} (c > d) = ((a >= c) or (b <= d )) * 基本公式 * {I >= l} <: {I >= r} = (l >= r) * {I <= l} <: {I <= r} = (l <= r) * {I >= l} <: {I <= r} = False * {I <= l} <: {I >= r} = False 布尔表达式的简化规则如下。min, max 不能被删除。此外,多个 or, and 被转换为嵌套的 min, max * 组合规则 * `I == a` => `I >= a 和 I <= a` * `i != a` => `I >= a+1 或 I <= a-1` * 一致性规则 * `I >= a 或 I <= b (a < b)` == `{...}` * 恒常规则 * `I >= a 和 I <= b (a > b)` == `{}` * 替换规则 * 以 `I >= n` 和 `I <= n` 的顺序替换顺序表达式 * 扩展规则 * `I == n 或 I >= n+1` => `I >= n` * `I == n 或 I <= n-1` => `I <= n` * 最大规则 * `I <= m 或 I <= n` => `I <= max(m, n)` * `I >= m 和 I >= n` => `I >= max(m, n)` * 最低规则 * `I >= m 或 I >= n` => `I >= min(m, n)` * `I <= m 和 I <= n` => `I <= min(m, n)` * 淘汰规则 * 当 `I >= a (n >= a)` 或 `I <= b (n <= b)` 或 `I == n` 在右侧时,左侧的 `I == n` 被删除能够 * 如果无法消除所有左手方程,则为 False 例如 ```python 1.._<: Nat => {I: Int | I >= 1} <: {I: Int | I >= 0} => {I >= 1} <: {I >= 0} => (I >= 0 => I >= 1) => 1 >= 0 => True # {I >= l} <: {I >= r} == (l >= r) # {I <= l} <: {I <= r} == (l <= r) ``` ```python {I: Int | I >= 0} <: {I: Int | I >= 1 or I <= -3} => {I >= 0} <: {I >= 1 or I <= -3} => {I >= 0} <: {I >= 1} or {I >= 0} <: {I <= -3} => False or False => False ``` ```python {I: Int | I >= 0} <: {I: Int | I >= -3 and I <= 1} => {I >= 0} <: {I >= -3 and I <= 1} => {I >= 0} <: {I >= -3} and {I >= 0} <: {I <= 1} => True and False => False ``` ```python {I: Int | I >= 2 or I == -2 or I <= -4} <: {I: Int | I >= 1 or I <= -1} => {I >= 2 or I <= -4 or I == -2} <: {I >= 1 or I <= -1} => {I >= 2 or I <= -4} <: {I >= 1 or I <= -1} and {I == -2} <: {I >= 1 or I <= -1} => {I >= 2} <: {I >= 1 or I <= -1} and {I <= -4} <: {I >= 1 or I <= -1} and {I == -2} <: {I >= 1} or {I == -2} <: {I <= -1} => {I >= 2} <: {I >= 1} or {I >= 2} <: {I <= -1} and {I <= -4} <: {I >= 1} or {I <= -4} <: {I <= -1} and False or True => True or False and False or True and True => True and True => True ```