184 lines
6.0 KiB
Zig
184 lines
6.0 KiB
Zig
const std = @import("std");
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const zls = @import("zls");
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const helper = @import("../helper.zig");
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const Context = @import("../context.zig").Context;
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const ErrorBuilder = @import("../ErrorBuilder.zig");
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const types = zls.types;
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const offsets = zls.offsets;
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const ast = zls.ast;
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const allocator = std.testing.allocator;
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test "nodesAtLoc" {
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try testNodesAtLoc(
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\\<outer><inner><inner><outer>
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);
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try testNodesAtLoc(
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\\<outer><inner>var alpha = 1<inner><outer>;
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);
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try testNodesAtLoc(
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\\<outer>const<inner> foo<inner> = 5<outer>;
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);
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try testNodesAtLoc(
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\\<outer>const f<inner>oo = 5;
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\\var bar = <inner>2<outer>;
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);
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try testNodesAtLoc(
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\\const foo = <outer>5<inner> +<inner> 2<outer>;
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);
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try testNodesAtLoc(
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\\<outer><inner>fn foo(alpha: u32) void {}
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\\const _ = foo(5);<inner><outer>
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);
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try testNodesAtLoc(
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\\var alpha = 1;
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\\var beta = alpha + alpha;
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\\<outer>var gamma<inner> = beta * alpha;
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\\var delta = gamma - 2;
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\\var epsilon = delta - <inner>beta<outer>;
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\\var zeta = epsilon * epsilon;
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);
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try testNodesAtLoc(
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\\<outer><inner>var alpha = 1;
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\\var beta = alpha + alpha;<inner>
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\\var gamma = beta * alpha<outer>;
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\\var epsilon = delta - beta;
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);
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try testNodesAtLoc(
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\\fn foo() void {
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\\
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\\}
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\\<outer>fn <inner>bar() void {
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\\ <inner>
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\\}<outer>
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\\fn baz() void {
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\\
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\\}
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);
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try testNodesAtLoc(
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\\var alpha = 1;
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\\<outer>var beta = alpha + alpha;
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\\// some comment
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\\// <inner>because it is<inner>
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\\// not a node
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\\var gamma = beta * alpha<outer>;
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\\var epsilon = delta - beta;
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);
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}
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test "smallestEnclosingSubrange" {
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const children = &[_]offsets.Loc{
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.{ .start = 0, .end = 5 },
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.{ .start = 5, .end = 10 },
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.{ .start = 12, .end = 18 },
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.{ .start = 18, .end = 22 },
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.{ .start = 25, .end = 28 },
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};
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try std.testing.expect(ast.smallestEnclosingSubrange(&.{}, undefined) == null);
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// children <-->
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// loc <--->
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// result null
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try std.testing.expect(
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ast.smallestEnclosingSubrange(&.{.{ .start = 0, .end = 4 }}, .{ .start = 0, .end = 5 }) == null,
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);
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// children <---><---> <----><--> <->
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// loc <---------------------------->
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// result null
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try std.testing.expect(ast.smallestEnclosingSubrange(children, .{ .start = 0, .end = 30 }) == null);
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// children <---><---> <----><--> <->
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// loc <--------->
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// result <---> <---->
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const result1 = ast.smallestEnclosingSubrange(children, .{ .start = 6, .end = 17 }).?;
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try std.testing.expectEqualSlices(
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offsets.Loc,
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children[1..3],
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children[result1.start .. result1.start + result1.len],
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);
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// children <---><---> <----><--> <->
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// loc <------------->
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// result <---> <----><-->
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const result2 = ast.smallestEnclosingSubrange(children, .{ .start = 6, .end = 20 }).?;
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try std.testing.expectEqualSlices(
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offsets.Loc,
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children[1..4],
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children[result2.start .. result2.start + result2.len],
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);
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// children <---><---> <----><--> <->
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// loc <----------->
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// result <---> <----><--> <->
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const result3 = ast.smallestEnclosingSubrange(children, .{ .start = 10, .end = 23 }).?;
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try std.testing.expectEqualSlices(
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offsets.Loc,
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children[1..5],
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children[result3.start .. result3.start + result3.len],
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);
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// children <---><---> <----><--> <->
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// loc <>
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// result <---> <---->
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const result4 = ast.smallestEnclosingSubrange(children, .{ .start = 10, .end = 12 }).?;
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try std.testing.expectEqualSlices(
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offsets.Loc,
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children[1..3],
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children[result4.start .. result4.start + result4.len],
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);
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}
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fn testNodesAtLoc(source: []const u8) !void {
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var ccp = try helper.collectClearPlaceholders(allocator, source);
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defer ccp.deinit(allocator);
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const old_locs = ccp.locations.items(.old);
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const locs = ccp.locations.items(.new);
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std.debug.assert(ccp.locations.len == 4);
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std.debug.assert(std.mem.eql(u8, offsets.locToSlice(source, old_locs[0]), "<outer>"));
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std.debug.assert(std.mem.eql(u8, offsets.locToSlice(source, old_locs[1]), "<inner>"));
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std.debug.assert(std.mem.eql(u8, offsets.locToSlice(source, old_locs[2]), "<inner>"));
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std.debug.assert(std.mem.eql(u8, offsets.locToSlice(source, old_locs[3]), "<outer>"));
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const inner_loc = offsets.Loc{ .start = locs[1].start, .end = locs[2].start };
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const outer_loc = offsets.Loc{ .start = locs[0].start, .end = locs[3].end };
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const new_source = try allocator.dupeZ(u8, ccp.new_source);
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defer allocator.free(new_source);
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var tree = try std.zig.Ast.parse(allocator, new_source, .zig);
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defer tree.deinit(allocator);
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const nodes = try ast.nodesAtLoc(allocator, tree, inner_loc);
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defer allocator.free(nodes);
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const actual_loc = offsets.Loc{
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.start = offsets.nodeToLoc(tree, nodes[0]).start,
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.end = offsets.nodeToLoc(tree, nodes[nodes.len - 1]).end,
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};
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const uri = "file.zig";
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var error_builder = ErrorBuilder.init(allocator);
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defer error_builder.deinit();
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errdefer error_builder.writeDebug();
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try error_builder.addFile(uri, new_source);
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if (outer_loc.start != actual_loc.start) {
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try error_builder.msgAtIndex("actual start here", uri, actual_loc.start, .err, .{});
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try error_builder.msgAtIndex("expected start here", uri, outer_loc.start, .err, .{});
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return error.LocStartMismatch;
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}
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if (outer_loc.end != actual_loc.end) {
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try error_builder.msgAtIndex("actual end here", uri, actual_loc.end, .err, .{});
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try error_builder.msgAtIndex("expected end here", uri, outer_loc.end, .err, .{});
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return error.LocEndMismatch;
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}
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}
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