173 lines
7.9 KiB
TypeScript
173 lines
7.9 KiB
TypeScript
import { refPosition } from '../reader';
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import * as M from '../meta';
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import { block, brackets, formatItems, Item, parens, seq } from './block';
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import { FunctionContext } from "./context";
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import { FieldType, SimpleType } from '../type';
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import { typeFor, typeForIntersection } from '../gentype';
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import { renderType } from "./rendertype";
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export function unconverterForDefinition(
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ctx: FunctionContext,
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def: M.Definition,
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src: string): Item[]
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{
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switch (def._variant) {
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case 'or':
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return [seq(`switch (${src}._variant) `, block(
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... [def.pattern0, def.pattern1, ... def.patternN].map(p =>
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seq(`case `, JSON.stringify(p.variantLabel), `: `, ctx.block(() => {
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const hasValueField = p.pattern._variant === 'SimplePattern';
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return [seq(`return `, unconverterForPattern(
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ctx, p.pattern, hasValueField ? `${src}.value` : src))];
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})))))];
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case 'and': {
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const ps = [def.pattern0, def.pattern1, ... def.patternN];
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const t = typeForIntersection(ctx.mod.resolver(), ps);
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const cs = ps.flatMap(p => {
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if (p._variant === 'anonymous' && p.value._variant === 'SimplePattern') {
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return [];
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} else {
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return [unconverterForNamed(ctx, p, src, t)];
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}
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});
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return [seq(`return `, (cs.length === 1)
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? cs[0]
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: seq(`_.merge`, parens(`(a, b) => (a === b) ? a : void 0`, ... cs)))];
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}
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case 'Pattern':
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return [seq(`return `, unconverterForPattern(ctx, def.value, `${src}`))];
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}
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}
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function unconverterForPattern(ctx: FunctionContext, a: M.Pattern, src: string): Item
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{
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return unconverterFor(ctx, a, src, typeFor(ctx.mod.resolver(), a));
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}
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function stepSource(
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src: string,
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t: SimpleType,
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key: string): { steppedSrc: string, steppedType: FieldType }
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{
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if (t.kind !== 'record' || !t.fields.has(key)) {
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throw new Error(
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`Internal error: attempt to step type ${JSON.stringify(t)} with key ${key}`);
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}
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return {
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steppedSrc: `${src}[${JSON.stringify(key)}]`,
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steppedType: t.fields.get(key)!
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};
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}
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function unconverterFor(ctx: FunctionContext, p: M.Pattern, src: string, t: SimpleType): Item {
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switch (p._variant) {
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case 'SimplePattern':
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return ((p: M.SimplePattern) => {
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switch (p._variant) {
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case 'any':
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return `${src}`;
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case 'atom':
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switch (p.atomKind._variant) {
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case 'Float': return `_.Single(${src})`;
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case 'Double': return `_.Double(${src})`;
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default: return `${src}`;
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}
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case 'lit':
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return ctx.mod.literal(p.value);
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case 'embedded':
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return `_.embed(${src})`;
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case 'Ref':
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return M.lookup(
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refPosition(p.value), p.value, ctx.mod.env,
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(_p) => `from${p.value.name.description!}(${src})`,
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(modId, modPath, _p) => {
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ctx.mod.imports.add([modId, modPath]);
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return `${modId}.from${p.value.name.description!}(${src})`;
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});
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}
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})(p.value);
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case 'CompoundPattern':
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return ((p: M.CompoundPattern) => {
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switch (p._variant) {
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case 'rec':
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return seq(`_.Record`, parens(
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unconverterForNamed(ctx, p.label, src, t),
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unconverterForNamed(ctx, p.fields, src, t)));
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case 'tuple':
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return brackets(... p.patterns.map(pp =>
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unconverterForNamed(ctx, pp, src, t)));
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case 'tuple*': {
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let varexp: Item;
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if (p.variable._variant === 'named') {
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const { steppedSrc, steppedType } =
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stepSource(src, t, p.variable.value.name.description!);
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if (steppedType.kind !== 'array') {
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throw new Error(
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`Internal error: attempt to visit element type of ` +
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`${formatItems([renderType(steppedType)])} after ` +
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`stepping by key ${p.variable.value.name.description!}`);
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}
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varexp = seq(steppedSrc, `.map`, parens(
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seq(`v => `, unconverterFor(
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ctx,
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M.Pattern.SimplePattern(p.variable.value.pattern),
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`v`,
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steppedType.type))));
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} else {
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if (t.kind !== 'array') throw new Error("Internal error");
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varexp = seq(src, `.map`, parens(
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seq(`v => `, unconverterFor(
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ctx,
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M.Pattern.SimplePattern(p.variable.value),
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`v`,
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t.type))));
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}
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if (p.fixed.length === 0) {
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return varexp;
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} else {
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return brackets(
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... p.fixed.map(pp => unconverterForNamed(ctx, pp, src, t)),
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seq(`... `, varexp));
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}
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}
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case 'setof':
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return seq(`new _.Set<_embedded>`, parens(
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`_.Array.from(${src}.values()).map(v => `,
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unconverterFor(ctx, M.Pattern.SimplePattern(p.pattern), 'v', t),
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`)`));
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case 'dictof':
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return seq(`new _.Dictionary<_embedded>`, parens(seq(
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`_.Array.from(${src}.entries()).map(([k, v]) => `,
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brackets(
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unconverterFor(ctx, M.Pattern.SimplePattern(p.key), 'k', t),
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unconverterFor(ctx, M.Pattern.SimplePattern(p.value), 'v', t)),
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`)`)));
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case 'dict':
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return seq(`new _.Dictionary<_embedded>`, parens(
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brackets(... Array.from(p.entries.entries()).map(([k, n]) =>
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brackets(
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ctx.mod.literal(k),
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unconverterForNamedSimple(ctx, M.addNameIfAbsent(n, k), src, t))))));
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}
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})(p.value);
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}
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}
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function unconverterForNamed(ctx: FunctionContext, p: M.NamedPattern, src: string, t: SimpleType): Item {
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if (p._variant === 'named') {
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const { steppedSrc, steppedType } = stepSource(src, t, p.value.name.description!);
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return unconverterFor(ctx, M.Pattern.SimplePattern(p.value.pattern), steppedSrc, steppedType);
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} else {
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return unconverterFor(ctx, p.value, src, t);
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}
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}
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function unconverterForNamedSimple(ctx: FunctionContext, p: M.NamedSimplePattern, src: string, t: SimpleType): Item {
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if (p._variant === 'named') {
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const { steppedSrc, steppedType } = stepSource(src, t, p.value.name.description!);
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return unconverterFor(ctx, M.Pattern.SimplePattern(p.value.pattern), steppedSrc, steppedType);
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} else {
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return unconverterFor(ctx, M.Pattern.SimplePattern(p.value), src, t);
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}
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}
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