go/ferret
go/ferret
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0
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Code Issues Releases Activity
cf8c55ab99
ferret/pkg/parser/fql/fql_parser.go
Tim Voronov 101da6323a
Added namespaces support (#296) 
* Added namespaces support

* Updated regexp for func name validation
2019-05-10 12:53:31 -04:00

8981 lines
231 KiB
Go
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// Code generated from antlr/FqlParser.g4 by ANTLR 4.7.2. DO NOT EDIT.
package fql // FqlParser
import (
"fmt"
"reflect"
"strconv"
"github.com/antlr/antlr4/runtime/Go/antlr"
)
// Suppress unused import errors
var _ = fmt.Printf
var _ = reflect.Copy
var _ = strconv.Itoa
var parserATN = []uint16{
3, 24715, 42794, 33075, 47597, 16764, 15335, 30598, 22884, 3, 65, 563,
4, 2, 9, 2, 4, 3, 9, 3, 4, 4, 9, 4, 4, 5, 9, 5, 4, 6, 9, 6, 4, 7, 9, 7,
4, 8, 9, 8, 4, 9, 9, 9, 4, 10, 9, 10, 4, 11, 9, 11, 4, 12, 9, 12, 4, 13,
9, 13, 4, 14, 9, 14, 4, 15, 9, 15, 4, 16, 9, 16, 4, 17, 9, 17, 4, 18, 9,
18, 4, 19, 9, 19, 4, 20, 9, 20, 4, 21, 9, 21, 4, 22, 9, 22, 4, 23, 9, 23,
4, 24, 9, 24, 4, 25, 9, 25, 4, 26, 9, 26, 4, 27, 9, 27, 4, 28, 9, 28, 4,
29, 9, 29, 4, 30, 9, 30, 4, 31, 9, 31, 4, 32, 9, 32, 4, 33, 9, 33, 4, 34,
9, 34, 4, 35, 9, 35, 4, 36, 9, 36, 4, 37, 9, 37, 4, 38, 9, 38, 4, 39, 9,
39, 4, 40, 9, 40, 4, 41, 9, 41, 4, 42, 9, 42, 4, 43, 9, 43, 4, 44, 9, 44,
4, 45, 9, 45, 4, 46, 9, 46, 4, 47, 9, 47, 4, 48, 9, 48, 4, 49, 9, 49, 4,
50, 9, 50, 4, 51, 9, 51, 4, 52, 9, 52, 4, 53, 9, 53, 4, 54, 9, 54, 4, 55,
9, 55, 4, 56, 9, 56, 4, 57, 9, 57, 3, 2, 3, 2, 3, 3, 7, 3, 118, 10, 3,
12, 3, 14, 3, 121, 11, 3, 3, 3, 3, 3, 3, 4, 3, 4, 5, 4, 127, 10, 4, 3,
5, 3, 5, 5, 5, 131, 10, 5, 3, 6, 3, 6, 5, 6, 135, 10, 6, 3, 6, 3, 6, 3,
6, 5, 6, 140, 10, 6, 3, 6, 3, 6, 3, 6, 3, 6, 3, 6, 3, 6, 5, 6, 148, 10,
6, 3, 7, 3, 7, 3, 7, 3, 7, 5, 7, 154, 10, 7, 3, 7, 3, 7, 3, 7, 7, 7, 159,
10, 7, 12, 7, 14, 7, 162, 11, 7, 3, 7, 3, 7, 3, 8, 3, 8, 3, 9, 3, 9, 3,
10, 3, 10, 3, 10, 3, 10, 3, 10, 3, 10, 3, 10, 5, 10, 177, 10, 10, 3, 11,
3, 11, 3, 11, 3, 11, 5, 11, 183, 10, 11, 3, 12, 3, 12, 5, 12, 187, 10,
12, 3, 13, 3, 13, 5, 13, 191, 10, 13, 3, 14, 3, 14, 5, 14, 195, 10, 14,
3, 15, 3, 15, 3, 15, 3, 16, 3, 16, 3, 16, 3, 16, 5, 16, 204, 10, 16, 3,
17, 3, 17, 5, 17, 208, 10, 17, 3, 18, 3, 18, 3, 18, 3, 18, 7, 18, 214,
10, 18, 12, 18, 14, 18, 217, 11, 18, 3, 19, 3, 19, 5, 19, 221, 10, 19,
3, 20, 3, 20, 3, 20, 3, 20, 3, 20, 3, 20, 3, 20, 3, 20, 3, 20, 3, 20, 3,
20, 3, 20, 3, 20, 3, 20, 3, 20, 3, 20, 3, 20, 3, 20, 5, 20, 241, 10, 20,
3, 21, 3, 21, 3, 21, 3, 21, 3, 22, 3, 22, 3, 22, 7, 22, 250, 10, 22, 12,
22, 14, 22, 253, 11, 22, 3, 23, 3, 23, 3, 23, 3, 23, 7, 23, 259, 10, 23,
12, 23, 14, 23, 262, 11, 23, 3, 24, 3, 24, 3, 24, 3, 24, 3, 25, 3, 25,
3, 25, 3, 25, 3, 25, 3, 25, 5, 25, 274, 10, 25, 5, 25, 276, 10, 25, 3,
26, 3, 26, 3, 26, 3, 26, 3, 26, 3, 27, 3, 27, 3, 27, 3, 27, 3, 27, 3, 27,
3, 27, 3, 27, 3, 27, 3, 27, 3, 27, 3, 27, 3, 27, 3, 27, 3, 27, 5, 27, 298,
10, 27, 3, 28, 3, 28, 3, 28, 3, 29, 3, 29, 3, 30, 3, 30, 3, 30, 5, 30,
308, 10, 30, 3, 30, 3, 30, 3, 30, 3, 30, 5, 30, 314, 10, 30, 3, 31, 3,
31, 5, 31, 318, 10, 31, 3, 31, 3, 31, 3, 32, 3, 32, 3, 32, 3, 32, 7, 32,
326, 10, 32, 12, 32, 14, 32, 329, 11, 32, 5, 32, 331, 10, 32, 3, 32, 5,
32, 334, 10, 32, 3, 32, 3, 32, 3, 33, 3, 33, 3, 34, 3, 34, 3, 35, 3, 35,
3, 36, 3, 36, 3, 37, 3, 37, 3, 38, 3, 38, 6, 38, 350, 10, 38, 13, 38, 14,
38, 351, 3, 38, 7, 38, 355, 10, 38, 12, 38, 14, 38, 358, 11, 38, 3, 39,
3, 39, 3, 39, 3, 39, 3, 39, 3, 39, 3, 39, 3, 39, 3, 39, 5, 39, 369, 10,
39, 3, 40, 3, 40, 3, 40, 3, 40, 7, 40, 375, 10, 40, 12, 40, 14, 40, 378,
11, 40, 6, 40, 380, 10, 40, 13, 40, 14, 40, 381, 3, 40, 3, 40, 3, 40, 3,
40, 3, 40, 7, 40, 389, 10, 40, 12, 40, 14, 40, 392, 11, 40, 7, 40, 394,
10, 40, 12, 40, 14, 40, 397, 11, 40, 3, 40, 3, 40, 3, 40, 7, 40, 402, 10,
40, 12, 40, 14, 40, 405, 11, 40, 7, 40, 407, 10, 40, 12, 40, 14, 40, 410,
11, 40, 5, 40, 412, 10, 40, 3, 41, 3, 41, 3, 42, 3, 42, 3, 42, 3, 42, 3,
43, 3, 43, 5, 43, 422, 10, 43, 3, 44, 3, 44, 3, 44, 3, 44, 3, 45, 7, 45,
429, 10, 45, 12, 45, 14, 45, 432, 11, 45, 3, 46, 3, 46, 3, 46, 3, 46, 3,
47, 3, 47, 3, 47, 3, 47, 7, 47, 442, 10, 47, 12, 47, 14, 47, 445, 11, 47,
5, 47, 447, 10, 47, 3, 47, 3, 47, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3,
48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48,
3, 48, 5, 48, 468, 10, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3,
48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 5, 48, 482, 10, 48, 3, 48, 3, 48,
3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3,
48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 3, 48, 5, 48, 505,
10, 48, 3, 48, 3, 48, 7, 48, 509, 10, 48, 12, 48, 14, 48, 512, 11, 48,
3, 49, 3, 49, 3, 49, 5, 49, 517, 10, 49, 3, 49, 3, 49, 3, 49, 3, 49, 3,
49, 3, 49, 3, 49, 3, 49, 3, 49, 3, 49, 3, 49, 3, 49, 3, 49, 3, 49, 3, 49,
3, 49, 3, 49, 3, 49, 3, 49, 3, 49, 3, 49, 3, 49, 3, 49, 5, 49, 542, 10,
49, 3, 50, 3, 50, 3, 51, 3, 51, 3, 51, 5, 51, 549, 10, 51, 3, 52, 3, 52,
3, 53, 3, 53, 3, 54, 3, 54, 3, 55, 3, 55, 3, 56, 3, 56, 3, 57, 3, 57, 3,
57, 2, 3, 94, 58, 2, 4, 6, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28, 30,
32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, 60, 62, 64, 66,
68, 70, 72, 74, 76, 78, 80, 82, 84, 86, 88, 90, 92, 94, 96, 98, 100, 102,
104, 106, 108, 110, 112, 2, 9, 3, 2, 61, 62, 3, 2, 46, 47, 4, 2, 46, 46,
53, 54, 3, 2, 17, 22, 3, 2, 23, 25, 3, 2, 26, 27, 4, 2, 26, 27, 56, 57,
2, 592, 2, 114, 3, 2, 2, 2, 4, 119, 3, 2, 2, 2, 6, 126, 3, 2, 2, 2, 8,
130, 3, 2, 2, 2, 10, 147, 3, 2, 2, 2, 12, 149, 3, 2, 2, 2, 14, 165, 3,
2, 2, 2, 16, 167, 3, 2, 2, 2, 18, 176, 3, 2, 2, 2, 20, 182, 3, 2, 2, 2,
22, 186, 3, 2, 2, 2, 24, 190, 3, 2, 2, 2, 26, 194, 3, 2, 2, 2, 28, 196,
3, 2, 2, 2, 30, 199, 3, 2, 2, 2, 32, 207, 3, 2, 2, 2, 34, 209, 3, 2, 2,
2, 36, 218, 3, 2, 2, 2, 38, 240, 3, 2, 2, 2, 40, 242, 3, 2, 2, 2, 42, 246,
3, 2, 2, 2, 44, 254, 3, 2, 2, 2, 46, 263, 3, 2, 2, 2, 48, 275, 3, 2, 2,
2, 50, 277, 3, 2, 2, 2, 52, 297, 3, 2, 2, 2, 54, 299, 3, 2, 2, 2, 56, 302,
3, 2, 2, 2, 58, 307, 3, 2, 2, 2, 60, 315, 3, 2, 2, 2, 62, 321, 3, 2, 2,
2, 64, 337, 3, 2, 2, 2, 66, 339, 3, 2, 2, 2, 68, 341, 3, 2, 2, 2, 70, 343,
3, 2, 2, 2, 72, 345, 3, 2, 2, 2, 74, 347, 3, 2, 2, 2, 76, 368, 3, 2, 2,
2, 78, 411, 3, 2, 2, 2, 80, 413, 3, 2, 2, 2, 82, 415, 3, 2, 2, 2, 84, 421,
3, 2, 2, 2, 86, 423, 3, 2, 2, 2, 88, 430, 3, 2, 2, 2, 90, 433, 3, 2, 2,
2, 92, 437, 3, 2, 2, 2, 94, 467, 3, 2, 2, 2, 96, 541, 3, 2, 2, 2, 98, 543,
3, 2, 2, 2, 100, 548, 3, 2, 2, 2, 102, 550, 3, 2, 2, 2, 104, 552, 3, 2,
2, 2, 106, 554, 3, 2, 2, 2, 108, 556, 3, 2, 2, 2, 110, 558, 3, 2, 2, 2,
112, 560, 3, 2, 2, 2, 114, 115, 5, 4, 3, 2, 115, 3, 3, 2, 2, 2, 116, 118,
5, 6, 4, 2, 117, 116, 3, 2, 2, 2, 118, 121, 3, 2, 2, 2, 119, 117, 3, 2,
2, 2, 119, 120, 3, 2, 2, 2, 120, 122, 3, 2, 2, 2, 121, 119, 3, 2, 2, 2,
122, 123, 5, 8, 5, 2, 123, 5, 3, 2, 2, 2, 124, 127, 5, 90, 46, 2, 125,
127, 5, 52, 27, 2, 126, 124, 3, 2, 2, 2, 126, 125, 3, 2, 2, 2, 127, 7,
3, 2, 2, 2, 128, 131, 5, 10, 6, 2, 129, 131, 5, 12, 7, 2, 130, 128, 3,
2, 2, 2, 130, 129, 3, 2, 2, 2, 131, 9, 3, 2, 2, 2, 132, 134, 7, 38, 2,
2, 133, 135, 7, 39, 2, 2, 134, 133, 3, 2, 2, 2, 134, 135, 3, 2, 2, 2, 135,
136, 3, 2, 2, 2, 136, 148, 5, 94, 48, 2, 137, 139, 7, 38, 2, 2, 138, 140,
7, 39, 2, 2, 139, 138, 3, 2, 2, 2, 139, 140, 3, 2, 2, 2, 140, 141, 3, 2,
2, 2, 141, 142, 7, 13, 2, 2, 142, 143, 5, 12, 7, 2, 143, 144, 7, 14, 2,
2, 144, 148, 3, 2, 2, 2, 145, 146, 7, 38, 2, 2, 146, 148, 5, 96, 49, 2,
147, 132, 3, 2, 2, 2, 147, 137, 3, 2, 2, 2, 147, 145, 3, 2, 2, 2, 148,
11, 3, 2, 2, 2, 149, 150, 7, 37, 2, 2, 150, 153, 5, 14, 8, 2, 151, 152,
7, 10, 2, 2, 152, 154, 5, 16, 9, 2, 153, 151, 3, 2, 2, 2, 153, 154, 3,
2, 2, 2, 154, 155, 3, 2, 2, 2, 155, 156, 7, 58, 2, 2, 156, 160, 5, 18,
10, 2, 157, 159, 5, 24, 13, 2, 158, 157, 3, 2, 2, 2, 159, 162, 3, 2, 2,
2, 160, 158, 3, 2, 2, 2, 160, 161, 3, 2, 2, 2, 161, 163, 3, 2, 2, 2, 162,
160, 3, 2, 2, 2, 163, 164, 5, 26, 14, 2, 164, 13, 3, 2, 2, 2, 165, 166,
7, 60, 2, 2, 166, 15, 3, 2, 2, 2, 167, 168, 7, 60, 2, 2, 168, 17, 3, 2,
2, 2, 169, 177, 5, 90, 46, 2, 170, 177, 5, 60, 31, 2, 171, 177, 5, 62,
32, 2, 172, 177, 5, 56, 29, 2, 173, 177, 5, 78, 40, 2, 174, 177, 5, 58,
30, 2, 175, 177, 5, 54, 28, 2, 176, 169, 3, 2, 2, 2, 176, 170, 3, 2, 2,
2, 176, 171, 3, 2, 2, 2, 176, 172, 3, 2, 2, 2, 176, 173, 3, 2, 2, 2, 176,
174, 3, 2, 2, 2, 176, 175, 3, 2, 2, 2, 177, 19, 3, 2, 2, 2, 178, 183, 5,
30, 16, 2, 179, 183, 5, 34, 18, 2, 180, 183, 5, 28, 15, 2, 181, 183, 5,
38, 20, 2, 182, 178, 3, 2, 2, 2, 182, 179, 3, 2, 2, 2, 182, 180, 3, 2,
2, 2, 182, 181, 3, 2, 2, 2, 183, 21, 3, 2, 2, 2, 184, 187, 5, 52, 27, 2,
185, 187, 5, 90, 46, 2, 186, 184, 3, 2, 2, 2, 186, 185, 3, 2, 2, 2, 187,
23, 3, 2, 2, 2, 188, 191, 5, 22, 12, 2, 189, 191, 5, 20, 11, 2, 190, 188,
3, 2, 2, 2, 190, 189, 3, 2, 2, 2, 191, 25, 3, 2, 2, 2, 192, 195, 5, 10,
6, 2, 193, 195, 5, 12, 7, 2, 194, 192, 3, 2, 2, 2, 194, 193, 3, 2, 2, 2,
195, 27, 3, 2, 2, 2, 196, 197, 7, 40, 2, 2, 197, 198, 5, 94, 48, 2, 198,
29, 3, 2, 2, 2, 199, 200, 7, 42, 2, 2, 200, 203, 5, 32, 17, 2, 201, 202,
7, 10, 2, 2, 202, 204, 5, 32, 17, 2, 203, 201, 3, 2, 2, 2, 203, 204, 3,
2, 2, 2, 204, 31, 3, 2, 2, 2, 205, 208, 7, 63, 2, 2, 206, 208, 5, 54, 28,
2, 207, 205, 3, 2, 2, 2, 207, 206, 3, 2, 2, 2, 208, 33, 3, 2, 2, 2, 209,
210, 7, 41, 2, 2, 210, 215, 5, 36, 19, 2, 211, 212, 7, 10, 2, 2, 212, 214,
5, 36, 19, 2, 213, 211, 3, 2, 2, 2, 214, 217, 3, 2, 2, 2, 215, 213, 3,
2, 2, 2, 215, 216, 3, 2, 2, 2, 216, 35, 3, 2, 2, 2, 217, 215, 3, 2, 2,
2, 218, 220, 5, 94, 48, 2, 219, 221, 7, 45, 2, 2, 220, 219, 3, 2, 2, 2,
220, 221, 3, 2, 2, 2, 221, 37, 3, 2, 2, 2, 222, 223, 7, 44, 2, 2, 223,
241, 5, 50, 26, 2, 224, 225, 7, 44, 2, 2, 225, 241, 5, 44, 23, 2, 226,
227, 7, 44, 2, 2, 227, 228, 5, 42, 22, 2, 228, 229, 5, 44, 23, 2, 229,
241, 3, 2, 2, 2, 230, 231, 7, 44, 2, 2, 231, 232, 5, 42, 22, 2, 232, 233,
5, 48, 25, 2, 233, 241, 3, 2, 2, 2, 234, 235, 7, 44, 2, 2, 235, 236, 5,
42, 22, 2, 236, 237, 5, 50, 26, 2, 237, 241, 3, 2, 2, 2, 238, 239, 7, 44,
2, 2, 239, 241, 5, 42, 22, 2, 240, 222, 3, 2, 2, 2, 240, 224, 3, 2, 2,
2, 240, 226, 3, 2, 2, 2, 240, 230, 3, 2, 2, 2, 240, 234, 3, 2, 2, 2, 240,
238, 3, 2, 2, 2, 241, 39, 3, 2, 2, 2, 242, 243, 7, 60, 2, 2, 243, 244,
7, 33, 2, 2, 244, 245, 5, 94, 48, 2, 245, 41, 3, 2, 2, 2, 246, 251, 5,
40, 21, 2, 247, 248, 7, 10, 2, 2, 248, 250, 5, 40, 21, 2, 249, 247, 3,
2, 2, 2, 250, 253, 3, 2, 2, 2, 251, 249, 3, 2, 2, 2, 251, 252, 3, 2, 2,
2, 252, 43, 3, 2, 2, 2, 253, 251, 3, 2, 2, 2, 254, 255, 7, 55, 2, 2, 255,
260, 5, 46, 24, 2, 256, 257, 7, 10, 2, 2, 257, 259, 5, 46, 24, 2, 258,
256, 3, 2, 2, 2, 259, 262, 3, 2, 2, 2, 260, 258, 3, 2, 2, 2, 260, 261,
3, 2, 2, 2, 261, 45, 3, 2, 2, 2, 262, 260, 3, 2, 2, 2, 263, 264, 7, 60,
2, 2, 264, 265, 7, 33, 2, 2, 265, 266, 5, 90, 46, 2, 266, 47, 3, 2, 2,
2, 267, 268, 7, 49, 2, 2, 268, 276, 5, 40, 21, 2, 269, 270, 7, 49, 2, 2,
270, 273, 7, 60, 2, 2, 271, 272, 7, 50, 2, 2, 272, 274, 7, 60, 2, 2, 273,
271, 3, 2, 2, 2, 273, 274, 3, 2, 2, 2, 274, 276, 3, 2, 2, 2, 275, 267,
3, 2, 2, 2, 275, 269, 3, 2, 2, 2, 276, 49, 3, 2, 2, 2, 277, 278, 7, 51,
2, 2, 278, 279, 7, 52, 2, 2, 279, 280, 7, 49, 2, 2, 280, 281, 7, 60, 2,
2, 281, 51, 3, 2, 2, 2, 282, 283, 7, 43, 2, 2, 283, 284, 7, 60, 2, 2, 284,
285, 7, 33, 2, 2, 285, 298, 5, 94, 48, 2, 286, 287, 7, 43, 2, 2, 287, 288,
7, 60, 2, 2, 288, 289, 7, 33, 2, 2, 289, 290, 7, 13, 2, 2, 290, 291, 5,
12, 7, 2, 291, 292, 7, 14, 2, 2, 292, 298, 3, 2, 2, 2, 293, 294, 7, 43,
2, 2, 294, 295, 7, 60, 2, 2, 295, 296, 7, 33, 2, 2, 296, 298, 5, 96, 49,
2, 297, 282, 3, 2, 2, 2, 297, 286, 3, 2, 2, 2, 297, 293, 3, 2, 2, 2, 298,
53, 3, 2, 2, 2, 299, 300, 7, 59, 2, 2, 300, 301, 7, 60, 2, 2, 301, 55,
3, 2, 2, 2, 302, 303, 7, 60, 2, 2, 303, 57, 3, 2, 2, 2, 304, 308, 5, 68,
35, 2, 305, 308, 5, 56, 29, 2, 306, 308, 5, 54, 28, 2, 307, 304, 3, 2,
2, 2, 307, 305, 3, 2, 2, 2, 307, 306, 3, 2, 2, 2, 308, 309, 3, 2, 2, 2,
309, 313, 7, 32, 2, 2, 310, 314, 5, 68, 35, 2, 311, 314, 5, 56, 29, 2,
312, 314, 5, 54, 28, 2, 313, 310, 3, 2, 2, 2, 313, 311, 3, 2, 2, 2, 313,
312, 3, 2, 2, 2, 314, 59, 3, 2, 2, 2, 315, 317, 7, 11, 2, 2, 316, 318,
5, 74, 38, 2, 317, 316, 3, 2, 2, 2, 317, 318, 3, 2, 2, 2, 318, 319, 3,
2, 2, 2, 319, 320, 7, 12, 2, 2, 320, 61, 3, 2, 2, 2, 321, 330, 7, 15, 2,
2, 322, 327, 5, 76, 39, 2, 323, 324, 7, 10, 2, 2, 324, 326, 5, 76, 39,
2, 325, 323, 3, 2, 2, 2, 326, 329, 3, 2, 2, 2, 327, 325, 3, 2, 2, 2, 327,
328, 3, 2, 2, 2, 328, 331, 3, 2, 2, 2, 329, 327, 3, 2, 2, 2, 330, 322,
3, 2, 2, 2, 330, 331, 3, 2, 2, 2, 331, 333, 3, 2, 2, 2, 332, 334, 7, 10,
2, 2, 333, 332, 3, 2, 2, 2, 333, 334, 3, 2, 2, 2, 334, 335, 3, 2, 2, 2,
335, 336, 7, 16, 2, 2, 336, 63, 3, 2, 2, 2, 337, 338, 7, 48, 2, 2, 338,
65, 3, 2, 2, 2, 339, 340, 9, 2, 2, 2, 340, 67, 3, 2, 2, 2, 341, 342, 7,
63, 2, 2, 342, 69, 3, 2, 2, 2, 343, 344, 7, 64, 2, 2, 344, 71, 3, 2, 2,
2, 345, 346, 9, 3, 2, 2, 346, 73, 3, 2, 2, 2, 347, 356, 5, 94, 48, 2, 348,
350, 7, 10, 2, 2, 349, 348, 3, 2, 2, 2, 350, 351, 3, 2, 2, 2, 351, 349,
3, 2, 2, 2, 351, 352, 3, 2, 2, 2, 352, 353, 3, 2, 2, 2, 353, 355, 5, 94,
48, 2, 354, 349, 3, 2, 2, 2, 355, 358, 3, 2, 2, 2, 356, 354, 3, 2, 2, 2,
356, 357, 3, 2, 2, 2, 357, 75, 3, 2, 2, 2, 358, 356, 3, 2, 2, 2, 359, 360,
5, 84, 43, 2, 360, 361, 7, 7, 2, 2, 361, 362, 5, 94, 48, 2, 362, 369, 3,
2, 2, 2, 363, 364, 5, 82, 42, 2, 364, 365, 7, 7, 2, 2, 365, 366, 5, 94,
48, 2, 366, 369, 3, 2, 2, 2, 367, 369, 5, 80, 41, 2, 368, 359, 3, 2, 2,
2, 368, 363, 3, 2, 2, 2, 368, 367, 3, 2, 2, 2, 369, 77, 3, 2, 2, 2, 370,
379, 7, 60, 2, 2, 371, 372, 7, 9, 2, 2, 372, 376, 5, 84, 43, 2, 373, 375,
5, 82, 42, 2, 374, 373, 3, 2, 2, 2, 375, 378, 3, 2, 2, 2, 376, 374, 3,
2, 2, 2, 376, 377, 3, 2, 2, 2, 377, 380, 3, 2, 2, 2, 378, 376, 3, 2, 2,
2, 379, 371, 3, 2, 2, 2, 380, 381, 3, 2, 2, 2, 381, 379, 3, 2, 2, 2, 381,
382, 3, 2, 2, 2, 382, 412, 3, 2, 2, 2, 383, 384, 7, 60, 2, 2, 384, 395,
5, 82, 42, 2, 385, 386, 7, 9, 2, 2, 386, 390, 5, 84, 43, 2, 387, 389, 5,
82, 42, 2, 388, 387, 3, 2, 2, 2, 389, 392, 3, 2, 2, 2, 390, 388, 3, 2,
2, 2, 390, 391, 3, 2, 2, 2, 391, 394, 3, 2, 2, 2, 392, 390, 3, 2, 2, 2,
393, 385, 3, 2, 2, 2, 394, 397, 3, 2, 2, 2, 395, 393, 3, 2, 2, 2, 395,
396, 3, 2, 2, 2, 396, 408, 3, 2, 2, 2, 397, 395, 3, 2, 2, 2, 398, 403,
5, 82, 42, 2, 399, 400, 7, 9, 2, 2, 400, 402, 5, 84, 43, 2, 401, 399, 3,
2, 2, 2, 402, 405, 3, 2, 2, 2, 403, 401, 3, 2, 2, 2, 403, 404, 3, 2, 2,
2, 404, 407, 3, 2, 2, 2, 405, 403, 3, 2, 2, 2, 406, 398, 3, 2, 2, 2, 407,
410, 3, 2, 2, 2, 408, 406, 3, 2, 2, 2, 408, 409, 3, 2, 2, 2, 409, 412,
3, 2, 2, 2, 410, 408, 3, 2, 2, 2, 411, 370, 3, 2, 2, 2, 411, 383, 3, 2,
2, 2, 412, 79, 3, 2, 2, 2, 413, 414, 5, 56, 29, 2, 414, 81, 3, 2, 2, 2,
415, 416, 7, 11, 2, 2, 416, 417, 5, 94, 48, 2, 417, 418, 7, 12, 2, 2, 418,
83, 3, 2, 2, 2, 419, 422, 7, 60, 2, 2, 420, 422, 5, 66, 34, 2, 421, 419,
3, 2, 2, 2, 421, 420, 3, 2, 2, 2, 422, 85, 3, 2, 2, 2, 423, 424, 7, 13,
2, 2, 424, 425, 5, 94, 48, 2, 425, 426, 7, 14, 2, 2, 426, 87, 3, 2, 2,
2, 427, 429, 7, 65, 2, 2, 428, 427, 3, 2, 2, 2, 429, 432, 3, 2, 2, 2, 430,
428, 3, 2, 2, 2, 430, 431, 3, 2, 2, 2, 431, 89, 3, 2, 2, 2, 432, 430, 3,
2, 2, 2, 433, 434, 5, 88, 45, 2, 434, 435, 7, 60, 2, 2, 435, 436, 5, 92,
47, 2, 436, 91, 3, 2, 2, 2, 437, 446, 7, 13, 2, 2, 438, 443, 5, 94, 48,
2, 439, 440, 7, 10, 2, 2, 440, 442, 5, 94, 48, 2, 441, 439, 3, 2, 2, 2,
442, 445, 3, 2, 2, 2, 443, 441, 3, 2, 2, 2, 443, 444, 3, 2, 2, 2, 444,
447, 3, 2, 2, 2, 445, 443, 3, 2, 2, 2, 446, 438, 3, 2, 2, 2, 446, 447,
3, 2, 2, 2, 447, 448, 3, 2, 2, 2, 448, 449, 7, 14, 2, 2, 449, 93, 3, 2,
2, 2, 450, 451, 8, 48, 1, 2, 451, 452, 5, 112, 57, 2, 452, 453, 5, 94,
48, 24, 453, 468, 3, 2, 2, 2, 454, 468, 5, 90, 46, 2, 455, 468, 5, 86,
44, 2, 456, 468, 5, 58, 30, 2, 457, 468, 5, 66, 34, 2, 458, 468, 5, 68,
35, 2, 459, 468, 5, 70, 36, 2, 460, 468, 5, 64, 33, 2, 461, 468, 5, 60,
31, 2, 462, 468, 5, 62, 32, 2, 463, 468, 5, 56, 29, 2, 464, 468, 5, 78,
40, 2, 465, 468, 5, 72, 37, 2, 466, 468, 5, 54, 28, 2, 467, 450, 3, 2,
2, 2, 467, 454, 3, 2, 2, 2, 467, 455, 3, 2, 2, 2, 467, 456, 3, 2, 2, 2,
467, 457, 3, 2, 2, 2, 467, 458, 3, 2, 2, 2, 467, 459, 3, 2, 2, 2, 467,
460, 3, 2, 2, 2, 467, 461, 3, 2, 2, 2, 467, 462, 3, 2, 2, 2, 467, 463,
3, 2, 2, 2, 467, 464, 3, 2, 2, 2, 467, 465, 3, 2, 2, 2, 467, 466, 3, 2,
2, 2, 468, 510, 3, 2, 2, 2, 469, 470, 12, 23, 2, 2, 470, 471, 5, 108, 55,
2, 471, 472, 5, 94, 48, 24, 472, 509, 3, 2, 2, 2, 473, 474, 12, 22, 2,
2, 474, 475, 5, 110, 56, 2, 475, 476, 5, 94, 48, 23, 476, 509, 3, 2, 2,
2, 477, 478, 12, 19, 2, 2, 478, 481, 5, 98, 50, 2, 479, 482, 5, 100, 51,
2, 480, 482, 5, 102, 52, 2, 481, 479, 3, 2, 2, 2, 481, 480, 3, 2, 2, 2,
482, 483, 3, 2, 2, 2, 483, 484, 5, 94, 48, 20, 484, 509, 3, 2, 2, 2, 485,
486, 12, 18, 2, 2, 486, 487, 5, 100, 51, 2, 487, 488, 5, 94, 48, 19, 488,
509, 3, 2, 2, 2, 489, 490, 12, 17, 2, 2, 490, 491, 5, 102, 52, 2, 491,
492, 5, 94, 48, 18, 492, 509, 3, 2, 2, 2, 493, 494, 12, 16, 2, 2, 494,
495, 5, 104, 53, 2, 495, 496, 5, 94, 48, 17, 496, 509, 3, 2, 2, 2, 497,
498, 12, 15, 2, 2, 498, 499, 5, 106, 54, 2, 499, 500, 5, 94, 48, 16, 500,
509, 3, 2, 2, 2, 501, 502, 12, 14, 2, 2, 502, 504, 7, 34, 2, 2, 503, 505,
5, 94, 48, 2, 504, 503, 3, 2, 2, 2, 504, 505, 3, 2, 2, 2, 505, 506, 3,
2, 2, 2, 506, 507, 7, 7, 2, 2, 507, 509, 5, 94, 48, 15, 508, 469, 3, 2,
2, 2, 508, 473, 3, 2, 2, 2, 508, 477, 3, 2, 2, 2, 508, 485, 3, 2, 2, 2,
508, 489, 3, 2, 2, 2, 508, 493, 3, 2, 2, 2, 508, 497, 3, 2, 2, 2, 508,
501, 3, 2, 2, 2, 509, 512, 3, 2, 2, 2, 510, 508, 3, 2, 2, 2, 510, 511,
3, 2, 2, 2, 511, 95, 3, 2, 2, 2, 512, 510, 3, 2, 2, 2, 513, 514, 5, 94,
48, 2, 514, 516, 7, 34, 2, 2, 515, 517, 5, 94, 48, 2, 516, 515, 3, 2, 2,
2, 516, 517, 3, 2, 2, 2, 517, 518, 3, 2, 2, 2, 518, 519, 7, 7, 2, 2, 519,
520, 7, 13, 2, 2, 520, 521, 5, 12, 7, 2, 521, 522, 7, 14, 2, 2, 522, 542,
3, 2, 2, 2, 523, 524, 5, 94, 48, 2, 524, 525, 7, 34, 2, 2, 525, 526, 7,
13, 2, 2, 526, 527, 5, 12, 7, 2, 527, 528, 7, 14, 2, 2, 528, 529, 7, 7,
2, 2, 529, 530, 5, 94, 48, 2, 530, 542, 3, 2, 2, 2, 531, 532, 5, 94, 48,
2, 532, 533, 7, 34, 2, 2, 533, 534, 7, 13, 2, 2, 534, 535, 5, 12, 7, 2,
535, 536, 7, 14, 2, 2, 536, 537, 7, 7, 2, 2, 537, 538, 7, 13, 2, 2, 538,
539, 5, 12, 7, 2, 539, 540, 7, 14, 2, 2, 540, 542, 3, 2, 2, 2, 541, 513,
3, 2, 2, 2, 541, 523, 3, 2, 2, 2, 541, 531, 3, 2, 2, 2, 542, 97, 3, 2,
2, 2, 543, 544, 9, 4, 2, 2, 544, 99, 3, 2, 2, 2, 545, 549, 7, 58, 2, 2,
546, 547, 7, 57, 2, 2, 547, 549, 7, 58, 2, 2, 548, 545, 3, 2, 2, 2, 548,
546, 3, 2, 2, 2, 549, 101, 3, 2, 2, 2, 550, 551, 9, 5, 2, 2, 551, 103,
3, 2, 2, 2, 552, 553, 7, 30, 2, 2, 553, 105, 3, 2, 2, 2, 554, 555, 7, 31,
2, 2, 555, 107, 3, 2, 2, 2, 556, 557, 9, 6, 2, 2, 557, 109, 3, 2, 2, 2,
558, 559, 9, 7, 2, 2, 559, 111, 3, 2, 2, 2, 560, 561, 9, 8, 2, 2, 561,
113, 3, 2, 2, 2, 53, 119, 126, 130, 134, 139, 147, 153, 160, 176, 182,
186, 190, 194, 203, 207, 215, 220, 240, 251, 260, 273, 275, 297, 307, 313,
317, 327, 330, 333, 351, 356, 368, 376, 381, 390, 395, 403, 408, 411, 421,
430, 443, 446, 467, 481, 504, 508, 510, 516, 541, 548,
}
var deserializer = antlr.NewATNDeserializer(nil)
var deserializedATN = deserializer.DeserializeFromUInt16(parserATN)
var literalNames = []string{
"", "", "", "", "", "':'", "';'", "'.'", "','", "'['", "']'", "'('", "')'",
"'{'", "'}'", "'>'", "'<'", "'=='", "'>='", "'<='", "'!='", "'*'", "'/'",
"'%'", "'+'", "'-'", "'--'", "'++'", "", "", "", "'='", "'?'", "'!~'",
"'=~'", "'FOR'", "'RETURN'", "'DISTINCT'", "'FILTER'", "'SORT'", "'LIMIT'",
"'LET'", "'COLLECT'", "", "'NONE'", "'NULL'", "", "'INTO'", "'KEEP'", "'WITH'",
"'COUNT'", "'ALL'", "'ANY'", "'AGGREGATE'", "'LIKE'", "", "'IN'", "'@'",
}
var symbolicNames = []string{
"", "MultiLineComment", "SingleLineComment", "WhiteSpaces", "LineTerminator",
"Colon", "SemiColon", "Dot", "Comma", "OpenBracket", "CloseBracket", "OpenParen",
"CloseParen", "OpenBrace", "CloseBrace", "Gt", "Lt", "Eq", "Gte", "Lte",
"Neq", "Multi", "Div", "Mod", "Plus", "Minus", "MinusMinus", "PlusPlus",
"And", "Or", "Range", "Assign", "QuestionMark", "RegexNotMatch", "RegexMatch",
"For", "Return", "Distinct", "Filter", "Sort", "Limit", "Let", "Collect",
"SortDirection", "None", "Null", "BooleanLiteral", "Into", "Keep", "With",
"Count", "All", "Any", "Aggregate", "Like", "Not", "In", "Param", "Identifier",
"StringLiteral", "TemplateStringLiteral", "IntegerLiteral", "FloatLiteral",
"NamespaceSegment",
}
var ruleNames = []string{
"program", "body", "bodyStatement", "bodyExpression", "returnExpression",
"forExpression", "forExpressionValueVariable", "forExpressionKeyVariable",
"forExpressionSource", "forExpressionClause", "forExpressionStatement",
"forExpressionBody", "forExpressionReturn", "filterClause", "limitClause",
"limitClauseValue", "sortClause", "sortClauseExpression", "collectClause",
"collectSelector", "collectGrouping", "collectAggregator", "collectAggregateSelector",
"collectGroupVariable", "collectCounter", "variableDeclaration", "param",
"variable", "rangeOperator", "arrayLiteral", "objectLiteral", "booleanLiteral",
"stringLiteral", "integerLiteral", "floatLiteral", "noneLiteral", "arrayElementList",
"propertyAssignment", "memberExpression", "shorthandPropertyName", "computedPropertyName",
"propertyName", "expressionGroup", "namespace", "functionCallExpression",
"arguments", "expression", "forTernaryExpression", "arrayOperator", "inOperator",
"equalityOperator", "logicalAndOperator", "logicalOrOperator", "multiplicativeOperator",
"additiveOperator", "unaryOperator",
}
var decisionToDFA = make([]*antlr.DFA, len(deserializedATN.DecisionToState))
func init() {
for index, ds := range deserializedATN.DecisionToState {
decisionToDFA[index] = antlr.NewDFA(ds, index)
}
}
type FqlParser struct {
*antlr.BaseParser
}
func NewFqlParser(input antlr.TokenStream) *FqlParser {
this := new(FqlParser)
this.BaseParser = antlr.NewBaseParser(input)
this.Interpreter = antlr.NewParserATNSimulator(this, deserializedATN, decisionToDFA, antlr.NewPredictionContextCache())
this.RuleNames = ruleNames
this.LiteralNames = literalNames
this.SymbolicNames = symbolicNames
this.GrammarFileName = "FqlParser.g4"
return this
}
// FqlParser tokens.
const (
FqlParserEOF = antlr.TokenEOF
FqlParserMultiLineComment = 1
FqlParserSingleLineComment = 2
FqlParserWhiteSpaces = 3
FqlParserLineTerminator = 4
FqlParserColon = 5
FqlParserSemiColon = 6
FqlParserDot = 7
FqlParserComma = 8
FqlParserOpenBracket = 9
FqlParserCloseBracket = 10
FqlParserOpenParen = 11
FqlParserCloseParen = 12
FqlParserOpenBrace = 13
FqlParserCloseBrace = 14
FqlParserGt = 15
FqlParserLt = 16
FqlParserEq = 17
FqlParserGte = 18
FqlParserLte = 19
FqlParserNeq = 20
FqlParserMulti = 21
FqlParserDiv = 22
FqlParserMod = 23
FqlParserPlus = 24
FqlParserMinus = 25
FqlParserMinusMinus = 26
FqlParserPlusPlus = 27
FqlParserAnd = 28
FqlParserOr = 29
FqlParserRange = 30
FqlParserAssign = 31
FqlParserQuestionMark = 32
FqlParserRegexNotMatch = 33
FqlParserRegexMatch = 34
FqlParserFor = 35
FqlParserReturn = 36
FqlParserDistinct = 37
FqlParserFilter = 38
FqlParserSort = 39
FqlParserLimit = 40
FqlParserLet = 41
FqlParserCollect = 42
FqlParserSortDirection = 43
FqlParserNone = 44
FqlParserNull = 45
FqlParserBooleanLiteral = 46
FqlParserInto = 47
FqlParserKeep = 48
FqlParserWith = 49
FqlParserCount = 50
FqlParserAll = 51
FqlParserAny = 52
FqlParserAggregate = 53
FqlParserLike = 54
FqlParserNot = 55
FqlParserIn = 56
FqlParserParam = 57
FqlParserIdentifier = 58
FqlParserStringLiteral = 59
FqlParserTemplateStringLiteral = 60
FqlParserIntegerLiteral = 61
FqlParserFloatLiteral = 62
FqlParserNamespaceSegment = 63
)
// FqlParser rules.
const (
FqlParserRULE_program = 0
FqlParserRULE_body = 1
FqlParserRULE_bodyStatement = 2
FqlParserRULE_bodyExpression = 3
FqlParserRULE_returnExpression = 4
FqlParserRULE_forExpression = 5
FqlParserRULE_forExpressionValueVariable = 6
FqlParserRULE_forExpressionKeyVariable = 7
FqlParserRULE_forExpressionSource = 8
FqlParserRULE_forExpressionClause = 9
FqlParserRULE_forExpressionStatement = 10
FqlParserRULE_forExpressionBody = 11
FqlParserRULE_forExpressionReturn = 12
FqlParserRULE_filterClause = 13
FqlParserRULE_limitClause = 14
FqlParserRULE_limitClauseValue = 15
FqlParserRULE_sortClause = 16
FqlParserRULE_sortClauseExpression = 17
FqlParserRULE_collectClause = 18
FqlParserRULE_collectSelector = 19
FqlParserRULE_collectGrouping = 20
FqlParserRULE_collectAggregator = 21
FqlParserRULE_collectAggregateSelector = 22
FqlParserRULE_collectGroupVariable = 23
FqlParserRULE_collectCounter = 24
FqlParserRULE_variableDeclaration = 25
FqlParserRULE_param = 26
FqlParserRULE_variable = 27
FqlParserRULE_rangeOperator = 28
FqlParserRULE_arrayLiteral = 29
FqlParserRULE_objectLiteral = 30
FqlParserRULE_booleanLiteral = 31
FqlParserRULE_stringLiteral = 32
FqlParserRULE_integerLiteral = 33
FqlParserRULE_floatLiteral = 34
FqlParserRULE_noneLiteral = 35
FqlParserRULE_arrayElementList = 36
FqlParserRULE_propertyAssignment = 37
FqlParserRULE_memberExpression = 38
FqlParserRULE_shorthandPropertyName = 39
FqlParserRULE_computedPropertyName = 40
FqlParserRULE_propertyName = 41
FqlParserRULE_expressionGroup = 42
FqlParserRULE_namespace = 43
FqlParserRULE_functionCallExpression = 44
FqlParserRULE_arguments = 45
FqlParserRULE_expression = 46
FqlParserRULE_forTernaryExpression = 47
FqlParserRULE_arrayOperator = 48
FqlParserRULE_inOperator = 49
FqlParserRULE_equalityOperator = 50
FqlParserRULE_logicalAndOperator = 51
FqlParserRULE_logicalOrOperator = 52
FqlParserRULE_multiplicativeOperator = 53
FqlParserRULE_additiveOperator = 54
FqlParserRULE_unaryOperator = 55
)
// IProgramContext is an interface to support dynamic dispatch.
type IProgramContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsProgramContext differentiates from other interfaces.
IsProgramContext()
}
type ProgramContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyProgramContext() *ProgramContext {
var p = new(ProgramContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_program
return p
}
func (*ProgramContext) IsProgramContext() {}
func NewProgramContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ProgramContext {
var p = new(ProgramContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_program
return p
}
func (s *ProgramContext) GetParser() antlr.Parser { return s.parser }
func (s *ProgramContext) Body() IBodyContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IBodyContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IBodyContext)
}
func (s *ProgramContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ProgramContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ProgramContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterProgram(s)
}
}
func (s *ProgramContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitProgram(s)
}
}
func (s *ProgramContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitProgram(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) Program() (localctx IProgramContext) {
localctx = NewProgramContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 0, FqlParserRULE_program)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(112)
p.Body()
}
return localctx
}
// IBodyContext is an interface to support dynamic dispatch.
type IBodyContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsBodyContext differentiates from other interfaces.
IsBodyContext()
}
type BodyContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyBodyContext() *BodyContext {
var p = new(BodyContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_body
return p
}
func (*BodyContext) IsBodyContext() {}
func NewBodyContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *BodyContext {
var p = new(BodyContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_body
return p
}
func (s *BodyContext) GetParser() antlr.Parser { return s.parser }
func (s *BodyContext) BodyExpression() IBodyExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IBodyExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IBodyExpressionContext)
}
func (s *BodyContext) AllBodyStatement() []IBodyStatementContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IBodyStatementContext)(nil)).Elem())
var tst = make([]IBodyStatementContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IBodyStatementContext)
}
}
return tst
}
func (s *BodyContext) BodyStatement(i int) IBodyStatementContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IBodyStatementContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IBodyStatementContext)
}
func (s *BodyContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *BodyContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *BodyContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterBody(s)
}
}
func (s *BodyContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitBody(s)
}
}
func (s *BodyContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitBody(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) Body() (localctx IBodyContext) {
localctx = NewBodyContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 2, FqlParserRULE_body)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
p.SetState(117)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
for ((_la-41)&-(0x1f+1)) == 0 && ((1<<uint((_la-41)))&((1<<(FqlParserLet-41))|(1<<(FqlParserIdentifier-41))|(1<<(FqlParserNamespaceSegment-41)))) != 0 {
{
p.SetState(114)
p.BodyStatement()
}
p.SetState(119)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
}
{
p.SetState(120)
p.BodyExpression()
}
return localctx
}
// IBodyStatementContext is an interface to support dynamic dispatch.
type IBodyStatementContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsBodyStatementContext differentiates from other interfaces.
IsBodyStatementContext()
}
type BodyStatementContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyBodyStatementContext() *BodyStatementContext {
var p = new(BodyStatementContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_bodyStatement
return p
}
func (*BodyStatementContext) IsBodyStatementContext() {}
func NewBodyStatementContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *BodyStatementContext {
var p = new(BodyStatementContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_bodyStatement
return p
}
func (s *BodyStatementContext) GetParser() antlr.Parser { return s.parser }
func (s *BodyStatementContext) FunctionCallExpression() IFunctionCallExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IFunctionCallExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IFunctionCallExpressionContext)
}
func (s *BodyStatementContext) VariableDeclaration() IVariableDeclarationContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IVariableDeclarationContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IVariableDeclarationContext)
}
func (s *BodyStatementContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *BodyStatementContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *BodyStatementContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterBodyStatement(s)
}
}
func (s *BodyStatementContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitBodyStatement(s)
}
}
func (s *BodyStatementContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitBodyStatement(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) BodyStatement() (localctx IBodyStatementContext) {
localctx = NewBodyStatementContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 4, FqlParserRULE_bodyStatement)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(124)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserIdentifier, FqlParserNamespaceSegment:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(122)
p.FunctionCallExpression()
}
case FqlParserLet:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(123)
p.VariableDeclaration()
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
return localctx
}
// IBodyExpressionContext is an interface to support dynamic dispatch.
type IBodyExpressionContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsBodyExpressionContext differentiates from other interfaces.
IsBodyExpressionContext()
}
type BodyExpressionContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyBodyExpressionContext() *BodyExpressionContext {
var p = new(BodyExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_bodyExpression
return p
}
func (*BodyExpressionContext) IsBodyExpressionContext() {}
func NewBodyExpressionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *BodyExpressionContext {
var p = new(BodyExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_bodyExpression
return p
}
func (s *BodyExpressionContext) GetParser() antlr.Parser { return s.parser }
func (s *BodyExpressionContext) ReturnExpression() IReturnExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IReturnExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IReturnExpressionContext)
}
func (s *BodyExpressionContext) ForExpression() IForExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForExpressionContext)
}
func (s *BodyExpressionContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *BodyExpressionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *BodyExpressionContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterBodyExpression(s)
}
}
func (s *BodyExpressionContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitBodyExpression(s)
}
}
func (s *BodyExpressionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitBodyExpression(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) BodyExpression() (localctx IBodyExpressionContext) {
localctx = NewBodyExpressionContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 6, FqlParserRULE_bodyExpression)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(128)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserReturn:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(126)
p.ReturnExpression()
}
case FqlParserFor:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(127)
p.ForExpression()
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
return localctx
}
// IReturnExpressionContext is an interface to support dynamic dispatch.
type IReturnExpressionContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsReturnExpressionContext differentiates from other interfaces.
IsReturnExpressionContext()
}
type ReturnExpressionContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyReturnExpressionContext() *ReturnExpressionContext {
var p = new(ReturnExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_returnExpression
return p
}
func (*ReturnExpressionContext) IsReturnExpressionContext() {}
func NewReturnExpressionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ReturnExpressionContext {
var p = new(ReturnExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_returnExpression
return p
}
func (s *ReturnExpressionContext) GetParser() antlr.Parser { return s.parser }
func (s *ReturnExpressionContext) Return() antlr.TerminalNode {
return s.GetToken(FqlParserReturn, 0)
}
func (s *ReturnExpressionContext) Expression() IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *ReturnExpressionContext) Distinct() antlr.TerminalNode {
return s.GetToken(FqlParserDistinct, 0)
}
func (s *ReturnExpressionContext) OpenParen() antlr.TerminalNode {
return s.GetToken(FqlParserOpenParen, 0)
}
func (s *ReturnExpressionContext) ForExpression() IForExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForExpressionContext)
}
func (s *ReturnExpressionContext) CloseParen() antlr.TerminalNode {
return s.GetToken(FqlParserCloseParen, 0)
}
func (s *ReturnExpressionContext) ForTernaryExpression() IForTernaryExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForTernaryExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForTernaryExpressionContext)
}
func (s *ReturnExpressionContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ReturnExpressionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ReturnExpressionContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterReturnExpression(s)
}
}
func (s *ReturnExpressionContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitReturnExpression(s)
}
}
func (s *ReturnExpressionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitReturnExpression(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ReturnExpression() (localctx IReturnExpressionContext) {
localctx = NewReturnExpressionContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 8, FqlParserRULE_returnExpression)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(145)
p.GetErrorHandler().Sync(p)
switch p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 5, p.GetParserRuleContext()) {
case 1:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(130)
p.Match(FqlParserReturn)
}
p.SetState(132)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if _la == FqlParserDistinct {
{
p.SetState(131)
p.Match(FqlParserDistinct)
}
}
{
p.SetState(134)
p.expression(0)
}
case 2:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(135)
p.Match(FqlParserReturn)
}
p.SetState(137)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if _la == FqlParserDistinct {
{
p.SetState(136)
p.Match(FqlParserDistinct)
}
}
{
p.SetState(139)
p.Match(FqlParserOpenParen)
}
{
p.SetState(140)
p.ForExpression()
}
{
p.SetState(141)
p.Match(FqlParserCloseParen)
}
case 3:
p.EnterOuterAlt(localctx, 3)
{
p.SetState(143)
p.Match(FqlParserReturn)
}
{
p.SetState(144)
p.ForTernaryExpression()
}
}
return localctx
}
// IForExpressionContext is an interface to support dynamic dispatch.
type IForExpressionContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsForExpressionContext differentiates from other interfaces.
IsForExpressionContext()
}
type ForExpressionContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyForExpressionContext() *ForExpressionContext {
var p = new(ForExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_forExpression
return p
}
func (*ForExpressionContext) IsForExpressionContext() {}
func NewForExpressionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ForExpressionContext {
var p = new(ForExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_forExpression
return p
}
func (s *ForExpressionContext) GetParser() antlr.Parser { return s.parser }
func (s *ForExpressionContext) For() antlr.TerminalNode {
return s.GetToken(FqlParserFor, 0)
}
func (s *ForExpressionContext) ForExpressionValueVariable() IForExpressionValueVariableContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionValueVariableContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForExpressionValueVariableContext)
}
func (s *ForExpressionContext) In() antlr.TerminalNode {
return s.GetToken(FqlParserIn, 0)
}
func (s *ForExpressionContext) ForExpressionSource() IForExpressionSourceContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionSourceContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForExpressionSourceContext)
}
func (s *ForExpressionContext) ForExpressionReturn() IForExpressionReturnContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionReturnContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForExpressionReturnContext)
}
func (s *ForExpressionContext) Comma() antlr.TerminalNode {
return s.GetToken(FqlParserComma, 0)
}
func (s *ForExpressionContext) ForExpressionKeyVariable() IForExpressionKeyVariableContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionKeyVariableContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForExpressionKeyVariableContext)
}
func (s *ForExpressionContext) AllForExpressionBody() []IForExpressionBodyContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IForExpressionBodyContext)(nil)).Elem())
var tst = make([]IForExpressionBodyContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IForExpressionBodyContext)
}
}
return tst
}
func (s *ForExpressionContext) ForExpressionBody(i int) IForExpressionBodyContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionBodyContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IForExpressionBodyContext)
}
func (s *ForExpressionContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ForExpressionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ForExpressionContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterForExpression(s)
}
}
func (s *ForExpressionContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitForExpression(s)
}
}
func (s *ForExpressionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitForExpression(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ForExpression() (localctx IForExpressionContext) {
localctx = NewForExpressionContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 10, FqlParserRULE_forExpression)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(147)
p.Match(FqlParserFor)
}
{
p.SetState(148)
p.ForExpressionValueVariable()
}
p.SetState(151)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if _la == FqlParserComma {
{
p.SetState(149)
p.Match(FqlParserComma)
}
{
p.SetState(150)
p.ForExpressionKeyVariable()
}
}
{
p.SetState(153)
p.Match(FqlParserIn)
}
{
p.SetState(154)
p.ForExpressionSource()
}
p.SetState(158)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
for ((_la-38)&-(0x1f+1)) == 0 && ((1<<uint((_la-38)))&((1<<(FqlParserFilter-38))|(1<<(FqlParserSort-38))|(1<<(FqlParserLimit-38))|(1<<(FqlParserLet-38))|(1<<(FqlParserCollect-38))|(1<<(FqlParserIdentifier-38))|(1<<(FqlParserNamespaceSegment-38)))) != 0 {
{
p.SetState(155)
p.ForExpressionBody()
}
p.SetState(160)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
}
{
p.SetState(161)
p.ForExpressionReturn()
}
return localctx
}
// IForExpressionValueVariableContext is an interface to support dynamic dispatch.
type IForExpressionValueVariableContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsForExpressionValueVariableContext differentiates from other interfaces.
IsForExpressionValueVariableContext()
}
type ForExpressionValueVariableContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyForExpressionValueVariableContext() *ForExpressionValueVariableContext {
var p = new(ForExpressionValueVariableContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_forExpressionValueVariable
return p
}
func (*ForExpressionValueVariableContext) IsForExpressionValueVariableContext() {}
func NewForExpressionValueVariableContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ForExpressionValueVariableContext {
var p = new(ForExpressionValueVariableContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_forExpressionValueVariable
return p
}
func (s *ForExpressionValueVariableContext) GetParser() antlr.Parser { return s.parser }
func (s *ForExpressionValueVariableContext) Identifier() antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, 0)
}
func (s *ForExpressionValueVariableContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ForExpressionValueVariableContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ForExpressionValueVariableContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterForExpressionValueVariable(s)
}
}
func (s *ForExpressionValueVariableContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitForExpressionValueVariable(s)
}
}
func (s *ForExpressionValueVariableContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitForExpressionValueVariable(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ForExpressionValueVariable() (localctx IForExpressionValueVariableContext) {
localctx = NewForExpressionValueVariableContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 12, FqlParserRULE_forExpressionValueVariable)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(163)
p.Match(FqlParserIdentifier)
}
return localctx
}
// IForExpressionKeyVariableContext is an interface to support dynamic dispatch.
type IForExpressionKeyVariableContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsForExpressionKeyVariableContext differentiates from other interfaces.
IsForExpressionKeyVariableContext()
}
type ForExpressionKeyVariableContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyForExpressionKeyVariableContext() *ForExpressionKeyVariableContext {
var p = new(ForExpressionKeyVariableContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_forExpressionKeyVariable
return p
}
func (*ForExpressionKeyVariableContext) IsForExpressionKeyVariableContext() {}
func NewForExpressionKeyVariableContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ForExpressionKeyVariableContext {
var p = new(ForExpressionKeyVariableContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_forExpressionKeyVariable
return p
}
func (s *ForExpressionKeyVariableContext) GetParser() antlr.Parser { return s.parser }
func (s *ForExpressionKeyVariableContext) Identifier() antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, 0)
}
func (s *ForExpressionKeyVariableContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ForExpressionKeyVariableContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ForExpressionKeyVariableContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterForExpressionKeyVariable(s)
}
}
func (s *ForExpressionKeyVariableContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitForExpressionKeyVariable(s)
}
}
func (s *ForExpressionKeyVariableContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitForExpressionKeyVariable(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ForExpressionKeyVariable() (localctx IForExpressionKeyVariableContext) {
localctx = NewForExpressionKeyVariableContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 14, FqlParserRULE_forExpressionKeyVariable)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(165)
p.Match(FqlParserIdentifier)
}
return localctx
}
// IForExpressionSourceContext is an interface to support dynamic dispatch.
type IForExpressionSourceContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsForExpressionSourceContext differentiates from other interfaces.
IsForExpressionSourceContext()
}
type ForExpressionSourceContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyForExpressionSourceContext() *ForExpressionSourceContext {
var p = new(ForExpressionSourceContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_forExpressionSource
return p
}
func (*ForExpressionSourceContext) IsForExpressionSourceContext() {}
func NewForExpressionSourceContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ForExpressionSourceContext {
var p = new(ForExpressionSourceContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_forExpressionSource
return p
}
func (s *ForExpressionSourceContext) GetParser() antlr.Parser { return s.parser }
func (s *ForExpressionSourceContext) FunctionCallExpression() IFunctionCallExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IFunctionCallExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IFunctionCallExpressionContext)
}
func (s *ForExpressionSourceContext) ArrayLiteral() IArrayLiteralContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IArrayLiteralContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IArrayLiteralContext)
}
func (s *ForExpressionSourceContext) ObjectLiteral() IObjectLiteralContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IObjectLiteralContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IObjectLiteralContext)
}
func (s *ForExpressionSourceContext) Variable() IVariableContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IVariableContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IVariableContext)
}
func (s *ForExpressionSourceContext) MemberExpression() IMemberExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IMemberExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IMemberExpressionContext)
}
func (s *ForExpressionSourceContext) RangeOperator() IRangeOperatorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IRangeOperatorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IRangeOperatorContext)
}
func (s *ForExpressionSourceContext) Param() IParamContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IParamContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IParamContext)
}
func (s *ForExpressionSourceContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ForExpressionSourceContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ForExpressionSourceContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterForExpressionSource(s)
}
}
func (s *ForExpressionSourceContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitForExpressionSource(s)
}
}
func (s *ForExpressionSourceContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitForExpressionSource(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ForExpressionSource() (localctx IForExpressionSourceContext) {
localctx = NewForExpressionSourceContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 16, FqlParserRULE_forExpressionSource)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(174)
p.GetErrorHandler().Sync(p)
switch p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 8, p.GetParserRuleContext()) {
case 1:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(167)
p.FunctionCallExpression()
}
case 2:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(168)
p.ArrayLiteral()
}
case 3:
p.EnterOuterAlt(localctx, 3)
{
p.SetState(169)
p.ObjectLiteral()
}
case 4:
p.EnterOuterAlt(localctx, 4)
{
p.SetState(170)
p.Variable()
}
case 5:
p.EnterOuterAlt(localctx, 5)
{
p.SetState(171)
p.MemberExpression()
}
case 6:
p.EnterOuterAlt(localctx, 6)
{
p.SetState(172)
p.RangeOperator()
}
case 7:
p.EnterOuterAlt(localctx, 7)
{
p.SetState(173)
p.Param()
}
}
return localctx
}
// IForExpressionClauseContext is an interface to support dynamic dispatch.
type IForExpressionClauseContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsForExpressionClauseContext differentiates from other interfaces.
IsForExpressionClauseContext()
}
type ForExpressionClauseContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyForExpressionClauseContext() *ForExpressionClauseContext {
var p = new(ForExpressionClauseContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_forExpressionClause
return p
}
func (*ForExpressionClauseContext) IsForExpressionClauseContext() {}
func NewForExpressionClauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ForExpressionClauseContext {
var p = new(ForExpressionClauseContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_forExpressionClause
return p
}
func (s *ForExpressionClauseContext) GetParser() antlr.Parser { return s.parser }
func (s *ForExpressionClauseContext) LimitClause() ILimitClauseContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ILimitClauseContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(ILimitClauseContext)
}
func (s *ForExpressionClauseContext) SortClause() ISortClauseContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ISortClauseContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(ISortClauseContext)
}
func (s *ForExpressionClauseContext) FilterClause() IFilterClauseContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IFilterClauseContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IFilterClauseContext)
}
func (s *ForExpressionClauseContext) CollectClause() ICollectClauseContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ICollectClauseContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(ICollectClauseContext)
}
func (s *ForExpressionClauseContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ForExpressionClauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ForExpressionClauseContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterForExpressionClause(s)
}
}
func (s *ForExpressionClauseContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitForExpressionClause(s)
}
}
func (s *ForExpressionClauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitForExpressionClause(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ForExpressionClause() (localctx IForExpressionClauseContext) {
localctx = NewForExpressionClauseContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 18, FqlParserRULE_forExpressionClause)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(180)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserLimit:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(176)
p.LimitClause()
}
case FqlParserSort:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(177)
p.SortClause()
}
case FqlParserFilter:
p.EnterOuterAlt(localctx, 3)
{
p.SetState(178)
p.FilterClause()
}
case FqlParserCollect:
p.EnterOuterAlt(localctx, 4)
{
p.SetState(179)
p.CollectClause()
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
return localctx
}
// IForExpressionStatementContext is an interface to support dynamic dispatch.
type IForExpressionStatementContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsForExpressionStatementContext differentiates from other interfaces.
IsForExpressionStatementContext()
}
type ForExpressionStatementContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyForExpressionStatementContext() *ForExpressionStatementContext {
var p = new(ForExpressionStatementContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_forExpressionStatement
return p
}
func (*ForExpressionStatementContext) IsForExpressionStatementContext() {}
func NewForExpressionStatementContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ForExpressionStatementContext {
var p = new(ForExpressionStatementContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_forExpressionStatement
return p
}
func (s *ForExpressionStatementContext) GetParser() antlr.Parser { return s.parser }
func (s *ForExpressionStatementContext) VariableDeclaration() IVariableDeclarationContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IVariableDeclarationContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IVariableDeclarationContext)
}
func (s *ForExpressionStatementContext) FunctionCallExpression() IFunctionCallExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IFunctionCallExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IFunctionCallExpressionContext)
}
func (s *ForExpressionStatementContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ForExpressionStatementContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ForExpressionStatementContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterForExpressionStatement(s)
}
}
func (s *ForExpressionStatementContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitForExpressionStatement(s)
}
}
func (s *ForExpressionStatementContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitForExpressionStatement(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ForExpressionStatement() (localctx IForExpressionStatementContext) {
localctx = NewForExpressionStatementContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 20, FqlParserRULE_forExpressionStatement)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(184)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserLet:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(182)
p.VariableDeclaration()
}
case FqlParserIdentifier, FqlParserNamespaceSegment:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(183)
p.FunctionCallExpression()
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
return localctx
}
// IForExpressionBodyContext is an interface to support dynamic dispatch.
type IForExpressionBodyContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsForExpressionBodyContext differentiates from other interfaces.
IsForExpressionBodyContext()
}
type ForExpressionBodyContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyForExpressionBodyContext() *ForExpressionBodyContext {
var p = new(ForExpressionBodyContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_forExpressionBody
return p
}
func (*ForExpressionBodyContext) IsForExpressionBodyContext() {}
func NewForExpressionBodyContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ForExpressionBodyContext {
var p = new(ForExpressionBodyContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_forExpressionBody
return p
}
func (s *ForExpressionBodyContext) GetParser() antlr.Parser { return s.parser }
func (s *ForExpressionBodyContext) ForExpressionStatement() IForExpressionStatementContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionStatementContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForExpressionStatementContext)
}
func (s *ForExpressionBodyContext) ForExpressionClause() IForExpressionClauseContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionClauseContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForExpressionClauseContext)
}
func (s *ForExpressionBodyContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ForExpressionBodyContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ForExpressionBodyContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterForExpressionBody(s)
}
}
func (s *ForExpressionBodyContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitForExpressionBody(s)
}
}
func (s *ForExpressionBodyContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitForExpressionBody(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ForExpressionBody() (localctx IForExpressionBodyContext) {
localctx = NewForExpressionBodyContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 22, FqlParserRULE_forExpressionBody)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(188)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserLet, FqlParserIdentifier, FqlParserNamespaceSegment:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(186)
p.ForExpressionStatement()
}
case FqlParserFilter, FqlParserSort, FqlParserLimit, FqlParserCollect:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(187)
p.ForExpressionClause()
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
return localctx
}
// IForExpressionReturnContext is an interface to support dynamic dispatch.
type IForExpressionReturnContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsForExpressionReturnContext differentiates from other interfaces.
IsForExpressionReturnContext()
}
type ForExpressionReturnContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyForExpressionReturnContext() *ForExpressionReturnContext {
var p = new(ForExpressionReturnContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_forExpressionReturn
return p
}
func (*ForExpressionReturnContext) IsForExpressionReturnContext() {}
func NewForExpressionReturnContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ForExpressionReturnContext {
var p = new(ForExpressionReturnContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_forExpressionReturn
return p
}
func (s *ForExpressionReturnContext) GetParser() antlr.Parser { return s.parser }
func (s *ForExpressionReturnContext) ReturnExpression() IReturnExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IReturnExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IReturnExpressionContext)
}
func (s *ForExpressionReturnContext) ForExpression() IForExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForExpressionContext)
}
func (s *ForExpressionReturnContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ForExpressionReturnContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ForExpressionReturnContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterForExpressionReturn(s)
}
}
func (s *ForExpressionReturnContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitForExpressionReturn(s)
}
}
func (s *ForExpressionReturnContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitForExpressionReturn(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ForExpressionReturn() (localctx IForExpressionReturnContext) {
localctx = NewForExpressionReturnContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 24, FqlParserRULE_forExpressionReturn)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(192)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserReturn:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(190)
p.ReturnExpression()
}
case FqlParserFor:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(191)
p.ForExpression()
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
return localctx
}
// IFilterClauseContext is an interface to support dynamic dispatch.
type IFilterClauseContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsFilterClauseContext differentiates from other interfaces.
IsFilterClauseContext()
}
type FilterClauseContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyFilterClauseContext() *FilterClauseContext {
var p = new(FilterClauseContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_filterClause
return p
}
func (*FilterClauseContext) IsFilterClauseContext() {}
func NewFilterClauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *FilterClauseContext {
var p = new(FilterClauseContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_filterClause
return p
}
func (s *FilterClauseContext) GetParser() antlr.Parser { return s.parser }
func (s *FilterClauseContext) Filter() antlr.TerminalNode {
return s.GetToken(FqlParserFilter, 0)
}
func (s *FilterClauseContext) Expression() IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *FilterClauseContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *FilterClauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *FilterClauseContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterFilterClause(s)
}
}
func (s *FilterClauseContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitFilterClause(s)
}
}
func (s *FilterClauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitFilterClause(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) FilterClause() (localctx IFilterClauseContext) {
localctx = NewFilterClauseContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 26, FqlParserRULE_filterClause)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(194)
p.Match(FqlParserFilter)
}
{
p.SetState(195)
p.expression(0)
}
return localctx
}
// ILimitClauseContext is an interface to support dynamic dispatch.
type ILimitClauseContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsLimitClauseContext differentiates from other interfaces.
IsLimitClauseContext()
}
type LimitClauseContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyLimitClauseContext() *LimitClauseContext {
var p = new(LimitClauseContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_limitClause
return p
}
func (*LimitClauseContext) IsLimitClauseContext() {}
func NewLimitClauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *LimitClauseContext {
var p = new(LimitClauseContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_limitClause
return p
}
func (s *LimitClauseContext) GetParser() antlr.Parser { return s.parser }
func (s *LimitClauseContext) Limit() antlr.TerminalNode {
return s.GetToken(FqlParserLimit, 0)
}
func (s *LimitClauseContext) AllLimitClauseValue() []ILimitClauseValueContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*ILimitClauseValueContext)(nil)).Elem())
var tst = make([]ILimitClauseValueContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(ILimitClauseValueContext)
}
}
return tst
}
func (s *LimitClauseContext) LimitClauseValue(i int) ILimitClauseValueContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ILimitClauseValueContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(ILimitClauseValueContext)
}
func (s *LimitClauseContext) Comma() antlr.TerminalNode {
return s.GetToken(FqlParserComma, 0)
}
func (s *LimitClauseContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *LimitClauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *LimitClauseContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterLimitClause(s)
}
}
func (s *LimitClauseContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitLimitClause(s)
}
}
func (s *LimitClauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitLimitClause(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) LimitClause() (localctx ILimitClauseContext) {
localctx = NewLimitClauseContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 28, FqlParserRULE_limitClause)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(197)
p.Match(FqlParserLimit)
}
{
p.SetState(198)
p.LimitClauseValue()
}
p.SetState(201)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if _la == FqlParserComma {
{
p.SetState(199)
p.Match(FqlParserComma)
}
{
p.SetState(200)
p.LimitClauseValue()
}
}
return localctx
}
// ILimitClauseValueContext is an interface to support dynamic dispatch.
type ILimitClauseValueContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsLimitClauseValueContext differentiates from other interfaces.
IsLimitClauseValueContext()
}
type LimitClauseValueContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyLimitClauseValueContext() *LimitClauseValueContext {
var p = new(LimitClauseValueContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_limitClauseValue
return p
}
func (*LimitClauseValueContext) IsLimitClauseValueContext() {}
func NewLimitClauseValueContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *LimitClauseValueContext {
var p = new(LimitClauseValueContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_limitClauseValue
return p
}
func (s *LimitClauseValueContext) GetParser() antlr.Parser { return s.parser }
func (s *LimitClauseValueContext) IntegerLiteral() antlr.TerminalNode {
return s.GetToken(FqlParserIntegerLiteral, 0)
}
func (s *LimitClauseValueContext) Param() IParamContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IParamContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IParamContext)
}
func (s *LimitClauseValueContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *LimitClauseValueContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *LimitClauseValueContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterLimitClauseValue(s)
}
}
func (s *LimitClauseValueContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitLimitClauseValue(s)
}
}
func (s *LimitClauseValueContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitLimitClauseValue(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) LimitClauseValue() (localctx ILimitClauseValueContext) {
localctx = NewLimitClauseValueContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 30, FqlParserRULE_limitClauseValue)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(205)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserIntegerLiteral:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(203)
p.Match(FqlParserIntegerLiteral)
}
case FqlParserParam:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(204)
p.Param()
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
return localctx
}
// ISortClauseContext is an interface to support dynamic dispatch.
type ISortClauseContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsSortClauseContext differentiates from other interfaces.
IsSortClauseContext()
}
type SortClauseContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptySortClauseContext() *SortClauseContext {
var p = new(SortClauseContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_sortClause
return p
}
func (*SortClauseContext) IsSortClauseContext() {}
func NewSortClauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *SortClauseContext {
var p = new(SortClauseContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_sortClause
return p
}
func (s *SortClauseContext) GetParser() antlr.Parser { return s.parser }
func (s *SortClauseContext) Sort() antlr.TerminalNode {
return s.GetToken(FqlParserSort, 0)
}
func (s *SortClauseContext) AllSortClauseExpression() []ISortClauseExpressionContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*ISortClauseExpressionContext)(nil)).Elem())
var tst = make([]ISortClauseExpressionContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(ISortClauseExpressionContext)
}
}
return tst
}
func (s *SortClauseContext) SortClauseExpression(i int) ISortClauseExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ISortClauseExpressionContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(ISortClauseExpressionContext)
}
func (s *SortClauseContext) AllComma() []antlr.TerminalNode {
return s.GetTokens(FqlParserComma)
}
func (s *SortClauseContext) Comma(i int) antlr.TerminalNode {
return s.GetToken(FqlParserComma, i)
}
func (s *SortClauseContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *SortClauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *SortClauseContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterSortClause(s)
}
}
func (s *SortClauseContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitSortClause(s)
}
}
func (s *SortClauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitSortClause(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) SortClause() (localctx ISortClauseContext) {
localctx = NewSortClauseContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 32, FqlParserRULE_sortClause)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(207)
p.Match(FqlParserSort)
}
{
p.SetState(208)
p.SortClauseExpression()
}
p.SetState(213)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
for _la == FqlParserComma {
{
p.SetState(209)
p.Match(FqlParserComma)
}
{
p.SetState(210)
p.SortClauseExpression()
}
p.SetState(215)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
}
return localctx
}
// ISortClauseExpressionContext is an interface to support dynamic dispatch.
type ISortClauseExpressionContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsSortClauseExpressionContext differentiates from other interfaces.
IsSortClauseExpressionContext()
}
type SortClauseExpressionContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptySortClauseExpressionContext() *SortClauseExpressionContext {
var p = new(SortClauseExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_sortClauseExpression
return p
}
func (*SortClauseExpressionContext) IsSortClauseExpressionContext() {}
func NewSortClauseExpressionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *SortClauseExpressionContext {
var p = new(SortClauseExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_sortClauseExpression
return p
}
func (s *SortClauseExpressionContext) GetParser() antlr.Parser { return s.parser }
func (s *SortClauseExpressionContext) Expression() IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *SortClauseExpressionContext) SortDirection() antlr.TerminalNode {
return s.GetToken(FqlParserSortDirection, 0)
}
func (s *SortClauseExpressionContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *SortClauseExpressionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *SortClauseExpressionContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterSortClauseExpression(s)
}
}
func (s *SortClauseExpressionContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitSortClauseExpression(s)
}
}
func (s *SortClauseExpressionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitSortClauseExpression(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) SortClauseExpression() (localctx ISortClauseExpressionContext) {
localctx = NewSortClauseExpressionContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 34, FqlParserRULE_sortClauseExpression)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(216)
p.expression(0)
}
p.SetState(218)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if _la == FqlParserSortDirection {
{
p.SetState(217)
p.Match(FqlParserSortDirection)
}
}
return localctx
}
// ICollectClauseContext is an interface to support dynamic dispatch.
type ICollectClauseContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsCollectClauseContext differentiates from other interfaces.
IsCollectClauseContext()
}
type CollectClauseContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyCollectClauseContext() *CollectClauseContext {
var p = new(CollectClauseContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_collectClause
return p
}
func (*CollectClauseContext) IsCollectClauseContext() {}
func NewCollectClauseContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *CollectClauseContext {
var p = new(CollectClauseContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_collectClause
return p
}
func (s *CollectClauseContext) GetParser() antlr.Parser { return s.parser }
func (s *CollectClauseContext) Collect() antlr.TerminalNode {
return s.GetToken(FqlParserCollect, 0)
}
func (s *CollectClauseContext) CollectCounter() ICollectCounterContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ICollectCounterContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(ICollectCounterContext)
}
func (s *CollectClauseContext) CollectAggregator() ICollectAggregatorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ICollectAggregatorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(ICollectAggregatorContext)
}
func (s *CollectClauseContext) CollectGrouping() ICollectGroupingContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ICollectGroupingContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(ICollectGroupingContext)
}
func (s *CollectClauseContext) CollectGroupVariable() ICollectGroupVariableContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ICollectGroupVariableContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(ICollectGroupVariableContext)
}
func (s *CollectClauseContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *CollectClauseContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *CollectClauseContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterCollectClause(s)
}
}
func (s *CollectClauseContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitCollectClause(s)
}
}
func (s *CollectClauseContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitCollectClause(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) CollectClause() (localctx ICollectClauseContext) {
localctx = NewCollectClauseContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 36, FqlParserRULE_collectClause)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(238)
p.GetErrorHandler().Sync(p)
switch p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 17, p.GetParserRuleContext()) {
case 1:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(220)
p.Match(FqlParserCollect)
}
{
p.SetState(221)
p.CollectCounter()
}
case 2:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(222)
p.Match(FqlParserCollect)
}
{
p.SetState(223)
p.CollectAggregator()
}
case 3:
p.EnterOuterAlt(localctx, 3)
{
p.SetState(224)
p.Match(FqlParserCollect)
}
{
p.SetState(225)
p.CollectGrouping()
}
{
p.SetState(226)
p.CollectAggregator()
}
case 4:
p.EnterOuterAlt(localctx, 4)
{
p.SetState(228)
p.Match(FqlParserCollect)
}
{
p.SetState(229)
p.CollectGrouping()
}
{
p.SetState(230)
p.CollectGroupVariable()
}
case 5:
p.EnterOuterAlt(localctx, 5)
{
p.SetState(232)
p.Match(FqlParserCollect)
}
{
p.SetState(233)
p.CollectGrouping()
}
{
p.SetState(234)
p.CollectCounter()
}
case 6:
p.EnterOuterAlt(localctx, 6)
{
p.SetState(236)
p.Match(FqlParserCollect)
}
{
p.SetState(237)
p.CollectGrouping()
}
}
return localctx
}
// ICollectSelectorContext is an interface to support dynamic dispatch.
type ICollectSelectorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsCollectSelectorContext differentiates from other interfaces.
IsCollectSelectorContext()
}
type CollectSelectorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyCollectSelectorContext() *CollectSelectorContext {
var p = new(CollectSelectorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_collectSelector
return p
}
func (*CollectSelectorContext) IsCollectSelectorContext() {}
func NewCollectSelectorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *CollectSelectorContext {
var p = new(CollectSelectorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_collectSelector
return p
}
func (s *CollectSelectorContext) GetParser() antlr.Parser { return s.parser }
func (s *CollectSelectorContext) Identifier() antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, 0)
}
func (s *CollectSelectorContext) Assign() antlr.TerminalNode {
return s.GetToken(FqlParserAssign, 0)
}
func (s *CollectSelectorContext) Expression() IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *CollectSelectorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *CollectSelectorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *CollectSelectorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterCollectSelector(s)
}
}
func (s *CollectSelectorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitCollectSelector(s)
}
}
func (s *CollectSelectorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitCollectSelector(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) CollectSelector() (localctx ICollectSelectorContext) {
localctx = NewCollectSelectorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 38, FqlParserRULE_collectSelector)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(240)
p.Match(FqlParserIdentifier)
}
{
p.SetState(241)
p.Match(FqlParserAssign)
}
{
p.SetState(242)
p.expression(0)
}
return localctx
}
// ICollectGroupingContext is an interface to support dynamic dispatch.
type ICollectGroupingContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsCollectGroupingContext differentiates from other interfaces.
IsCollectGroupingContext()
}
type CollectGroupingContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyCollectGroupingContext() *CollectGroupingContext {
var p = new(CollectGroupingContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_collectGrouping
return p
}
func (*CollectGroupingContext) IsCollectGroupingContext() {}
func NewCollectGroupingContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *CollectGroupingContext {
var p = new(CollectGroupingContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_collectGrouping
return p
}
func (s *CollectGroupingContext) GetParser() antlr.Parser { return s.parser }
func (s *CollectGroupingContext) AllCollectSelector() []ICollectSelectorContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*ICollectSelectorContext)(nil)).Elem())
var tst = make([]ICollectSelectorContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(ICollectSelectorContext)
}
}
return tst
}
func (s *CollectGroupingContext) CollectSelector(i int) ICollectSelectorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ICollectSelectorContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(ICollectSelectorContext)
}
func (s *CollectGroupingContext) AllComma() []antlr.TerminalNode {
return s.GetTokens(FqlParserComma)
}
func (s *CollectGroupingContext) Comma(i int) antlr.TerminalNode {
return s.GetToken(FqlParserComma, i)
}
func (s *CollectGroupingContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *CollectGroupingContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *CollectGroupingContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterCollectGrouping(s)
}
}
func (s *CollectGroupingContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitCollectGrouping(s)
}
}
func (s *CollectGroupingContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitCollectGrouping(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) CollectGrouping() (localctx ICollectGroupingContext) {
localctx = NewCollectGroupingContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 40, FqlParserRULE_collectGrouping)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(244)
p.CollectSelector()
}
p.SetState(249)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
for _la == FqlParserComma {
{
p.SetState(245)
p.Match(FqlParserComma)
}
{
p.SetState(246)
p.CollectSelector()
}
p.SetState(251)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
}
return localctx
}
// ICollectAggregatorContext is an interface to support dynamic dispatch.
type ICollectAggregatorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsCollectAggregatorContext differentiates from other interfaces.
IsCollectAggregatorContext()
}
type CollectAggregatorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyCollectAggregatorContext() *CollectAggregatorContext {
var p = new(CollectAggregatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_collectAggregator
return p
}
func (*CollectAggregatorContext) IsCollectAggregatorContext() {}
func NewCollectAggregatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *CollectAggregatorContext {
var p = new(CollectAggregatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_collectAggregator
return p
}
func (s *CollectAggregatorContext) GetParser() antlr.Parser { return s.parser }
func (s *CollectAggregatorContext) Aggregate() antlr.TerminalNode {
return s.GetToken(FqlParserAggregate, 0)
}
func (s *CollectAggregatorContext) AllCollectAggregateSelector() []ICollectAggregateSelectorContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*ICollectAggregateSelectorContext)(nil)).Elem())
var tst = make([]ICollectAggregateSelectorContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(ICollectAggregateSelectorContext)
}
}
return tst
}
func (s *CollectAggregatorContext) CollectAggregateSelector(i int) ICollectAggregateSelectorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ICollectAggregateSelectorContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(ICollectAggregateSelectorContext)
}
func (s *CollectAggregatorContext) AllComma() []antlr.TerminalNode {
return s.GetTokens(FqlParserComma)
}
func (s *CollectAggregatorContext) Comma(i int) antlr.TerminalNode {
return s.GetToken(FqlParserComma, i)
}
func (s *CollectAggregatorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *CollectAggregatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *CollectAggregatorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterCollectAggregator(s)
}
}
func (s *CollectAggregatorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitCollectAggregator(s)
}
}
func (s *CollectAggregatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitCollectAggregator(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) CollectAggregator() (localctx ICollectAggregatorContext) {
localctx = NewCollectAggregatorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 42, FqlParserRULE_collectAggregator)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(252)
p.Match(FqlParserAggregate)
}
{
p.SetState(253)
p.CollectAggregateSelector()
}
p.SetState(258)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
for _la == FqlParserComma {
{
p.SetState(254)
p.Match(FqlParserComma)
}
{
p.SetState(255)
p.CollectAggregateSelector()
}
p.SetState(260)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
}
return localctx
}
// ICollectAggregateSelectorContext is an interface to support dynamic dispatch.
type ICollectAggregateSelectorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsCollectAggregateSelectorContext differentiates from other interfaces.
IsCollectAggregateSelectorContext()
}
type CollectAggregateSelectorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyCollectAggregateSelectorContext() *CollectAggregateSelectorContext {
var p = new(CollectAggregateSelectorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_collectAggregateSelector
return p
}
func (*CollectAggregateSelectorContext) IsCollectAggregateSelectorContext() {}
func NewCollectAggregateSelectorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *CollectAggregateSelectorContext {
var p = new(CollectAggregateSelectorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_collectAggregateSelector
return p
}
func (s *CollectAggregateSelectorContext) GetParser() antlr.Parser { return s.parser }
func (s *CollectAggregateSelectorContext) Identifier() antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, 0)
}
func (s *CollectAggregateSelectorContext) Assign() antlr.TerminalNode {
return s.GetToken(FqlParserAssign, 0)
}
func (s *CollectAggregateSelectorContext) FunctionCallExpression() IFunctionCallExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IFunctionCallExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IFunctionCallExpressionContext)
}
func (s *CollectAggregateSelectorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *CollectAggregateSelectorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *CollectAggregateSelectorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterCollectAggregateSelector(s)
}
}
func (s *CollectAggregateSelectorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitCollectAggregateSelector(s)
}
}
func (s *CollectAggregateSelectorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitCollectAggregateSelector(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) CollectAggregateSelector() (localctx ICollectAggregateSelectorContext) {
localctx = NewCollectAggregateSelectorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 44, FqlParserRULE_collectAggregateSelector)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(261)
p.Match(FqlParserIdentifier)
}
{
p.SetState(262)
p.Match(FqlParserAssign)
}
{
p.SetState(263)
p.FunctionCallExpression()
}
return localctx
}
// ICollectGroupVariableContext is an interface to support dynamic dispatch.
type ICollectGroupVariableContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsCollectGroupVariableContext differentiates from other interfaces.
IsCollectGroupVariableContext()
}
type CollectGroupVariableContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyCollectGroupVariableContext() *CollectGroupVariableContext {
var p = new(CollectGroupVariableContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_collectGroupVariable
return p
}
func (*CollectGroupVariableContext) IsCollectGroupVariableContext() {}
func NewCollectGroupVariableContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *CollectGroupVariableContext {
var p = new(CollectGroupVariableContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_collectGroupVariable
return p
}
func (s *CollectGroupVariableContext) GetParser() antlr.Parser { return s.parser }
func (s *CollectGroupVariableContext) Into() antlr.TerminalNode {
return s.GetToken(FqlParserInto, 0)
}
func (s *CollectGroupVariableContext) CollectSelector() ICollectSelectorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ICollectSelectorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(ICollectSelectorContext)
}
func (s *CollectGroupVariableContext) AllIdentifier() []antlr.TerminalNode {
return s.GetTokens(FqlParserIdentifier)
}
func (s *CollectGroupVariableContext) Identifier(i int) antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, i)
}
func (s *CollectGroupVariableContext) Keep() antlr.TerminalNode {
return s.GetToken(FqlParserKeep, 0)
}
func (s *CollectGroupVariableContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *CollectGroupVariableContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *CollectGroupVariableContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterCollectGroupVariable(s)
}
}
func (s *CollectGroupVariableContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitCollectGroupVariable(s)
}
}
func (s *CollectGroupVariableContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitCollectGroupVariable(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) CollectGroupVariable() (localctx ICollectGroupVariableContext) {
localctx = NewCollectGroupVariableContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 46, FqlParserRULE_collectGroupVariable)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(273)
p.GetErrorHandler().Sync(p)
switch p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 21, p.GetParserRuleContext()) {
case 1:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(265)
p.Match(FqlParserInto)
}
{
p.SetState(266)
p.CollectSelector()
}
case 2:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(267)
p.Match(FqlParserInto)
}
{
p.SetState(268)
p.Match(FqlParserIdentifier)
}
p.SetState(271)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if _la == FqlParserKeep {
{
p.SetState(269)
p.Match(FqlParserKeep)
}
{
p.SetState(270)
p.Match(FqlParserIdentifier)
}
}
}
return localctx
}
// ICollectCounterContext is an interface to support dynamic dispatch.
type ICollectCounterContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsCollectCounterContext differentiates from other interfaces.
IsCollectCounterContext()
}
type CollectCounterContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyCollectCounterContext() *CollectCounterContext {
var p = new(CollectCounterContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_collectCounter
return p
}
func (*CollectCounterContext) IsCollectCounterContext() {}
func NewCollectCounterContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *CollectCounterContext {
var p = new(CollectCounterContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_collectCounter
return p
}
func (s *CollectCounterContext) GetParser() antlr.Parser { return s.parser }
func (s *CollectCounterContext) With() antlr.TerminalNode {
return s.GetToken(FqlParserWith, 0)
}
func (s *CollectCounterContext) Count() antlr.TerminalNode {
return s.GetToken(FqlParserCount, 0)
}
func (s *CollectCounterContext) Into() antlr.TerminalNode {
return s.GetToken(FqlParserInto, 0)
}
func (s *CollectCounterContext) Identifier() antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, 0)
}
func (s *CollectCounterContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *CollectCounterContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *CollectCounterContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterCollectCounter(s)
}
}
func (s *CollectCounterContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitCollectCounter(s)
}
}
func (s *CollectCounterContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitCollectCounter(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) CollectCounter() (localctx ICollectCounterContext) {
localctx = NewCollectCounterContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 48, FqlParserRULE_collectCounter)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(275)
p.Match(FqlParserWith)
}
{
p.SetState(276)
p.Match(FqlParserCount)
}
{
p.SetState(277)
p.Match(FqlParserInto)
}
{
p.SetState(278)
p.Match(FqlParserIdentifier)
}
return localctx
}
// IVariableDeclarationContext is an interface to support dynamic dispatch.
type IVariableDeclarationContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsVariableDeclarationContext differentiates from other interfaces.
IsVariableDeclarationContext()
}
type VariableDeclarationContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyVariableDeclarationContext() *VariableDeclarationContext {
var p = new(VariableDeclarationContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_variableDeclaration
return p
}
func (*VariableDeclarationContext) IsVariableDeclarationContext() {}
func NewVariableDeclarationContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *VariableDeclarationContext {
var p = new(VariableDeclarationContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_variableDeclaration
return p
}
func (s *VariableDeclarationContext) GetParser() antlr.Parser { return s.parser }
func (s *VariableDeclarationContext) Let() antlr.TerminalNode {
return s.GetToken(FqlParserLet, 0)
}
func (s *VariableDeclarationContext) Identifier() antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, 0)
}
func (s *VariableDeclarationContext) Assign() antlr.TerminalNode {
return s.GetToken(FqlParserAssign, 0)
}
func (s *VariableDeclarationContext) Expression() IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *VariableDeclarationContext) OpenParen() antlr.TerminalNode {
return s.GetToken(FqlParserOpenParen, 0)
}
func (s *VariableDeclarationContext) ForExpression() IForExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForExpressionContext)
}
func (s *VariableDeclarationContext) CloseParen() antlr.TerminalNode {
return s.GetToken(FqlParserCloseParen, 0)
}
func (s *VariableDeclarationContext) ForTernaryExpression() IForTernaryExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForTernaryExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IForTernaryExpressionContext)
}
func (s *VariableDeclarationContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *VariableDeclarationContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *VariableDeclarationContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterVariableDeclaration(s)
}
}
func (s *VariableDeclarationContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitVariableDeclaration(s)
}
}
func (s *VariableDeclarationContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitVariableDeclaration(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) VariableDeclaration() (localctx IVariableDeclarationContext) {
localctx = NewVariableDeclarationContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 50, FqlParserRULE_variableDeclaration)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(295)
p.GetErrorHandler().Sync(p)
switch p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 22, p.GetParserRuleContext()) {
case 1:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(280)
p.Match(FqlParserLet)
}
{
p.SetState(281)
p.Match(FqlParserIdentifier)
}
{
p.SetState(282)
p.Match(FqlParserAssign)
}
{
p.SetState(283)
p.expression(0)
}
case 2:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(284)
p.Match(FqlParserLet)
}
{
p.SetState(285)
p.Match(FqlParserIdentifier)
}
{
p.SetState(286)
p.Match(FqlParserAssign)
}
{
p.SetState(287)
p.Match(FqlParserOpenParen)
}
{
p.SetState(288)
p.ForExpression()
}
{
p.SetState(289)
p.Match(FqlParserCloseParen)
}
case 3:
p.EnterOuterAlt(localctx, 3)
{
p.SetState(291)
p.Match(FqlParserLet)
}
{
p.SetState(292)
p.Match(FqlParserIdentifier)
}
{
p.SetState(293)
p.Match(FqlParserAssign)
}
{
p.SetState(294)
p.ForTernaryExpression()
}
}
return localctx
}
// IParamContext is an interface to support dynamic dispatch.
type IParamContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsParamContext differentiates from other interfaces.
IsParamContext()
}
type ParamContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyParamContext() *ParamContext {
var p = new(ParamContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_param
return p
}
func (*ParamContext) IsParamContext() {}
func NewParamContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ParamContext {
var p = new(ParamContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_param
return p
}
func (s *ParamContext) GetParser() antlr.Parser { return s.parser }
func (s *ParamContext) Param() antlr.TerminalNode {
return s.GetToken(FqlParserParam, 0)
}
func (s *ParamContext) Identifier() antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, 0)
}
func (s *ParamContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ParamContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ParamContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterParam(s)
}
}
func (s *ParamContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitParam(s)
}
}
func (s *ParamContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitParam(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) Param() (localctx IParamContext) {
localctx = NewParamContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 52, FqlParserRULE_param)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(297)
p.Match(FqlParserParam)
}
{
p.SetState(298)
p.Match(FqlParserIdentifier)
}
return localctx
}
// IVariableContext is an interface to support dynamic dispatch.
type IVariableContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsVariableContext differentiates from other interfaces.
IsVariableContext()
}
type VariableContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyVariableContext() *VariableContext {
var p = new(VariableContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_variable
return p
}
func (*VariableContext) IsVariableContext() {}
func NewVariableContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *VariableContext {
var p = new(VariableContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_variable
return p
}
func (s *VariableContext) GetParser() antlr.Parser { return s.parser }
func (s *VariableContext) Identifier() antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, 0)
}
func (s *VariableContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *VariableContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *VariableContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterVariable(s)
}
}
func (s *VariableContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitVariable(s)
}
}
func (s *VariableContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitVariable(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) Variable() (localctx IVariableContext) {
localctx = NewVariableContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 54, FqlParserRULE_variable)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(300)
p.Match(FqlParserIdentifier)
}
return localctx
}
// IRangeOperatorContext is an interface to support dynamic dispatch.
type IRangeOperatorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsRangeOperatorContext differentiates from other interfaces.
IsRangeOperatorContext()
}
type RangeOperatorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyRangeOperatorContext() *RangeOperatorContext {
var p = new(RangeOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_rangeOperator
return p
}
func (*RangeOperatorContext) IsRangeOperatorContext() {}
func NewRangeOperatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *RangeOperatorContext {
var p = new(RangeOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_rangeOperator
return p
}
func (s *RangeOperatorContext) GetParser() antlr.Parser { return s.parser }
func (s *RangeOperatorContext) Range() antlr.TerminalNode {
return s.GetToken(FqlParserRange, 0)
}
func (s *RangeOperatorContext) AllIntegerLiteral() []IIntegerLiteralContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IIntegerLiteralContext)(nil)).Elem())
var tst = make([]IIntegerLiteralContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IIntegerLiteralContext)
}
}
return tst
}
func (s *RangeOperatorContext) IntegerLiteral(i int) IIntegerLiteralContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IIntegerLiteralContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IIntegerLiteralContext)
}
func (s *RangeOperatorContext) AllVariable() []IVariableContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IVariableContext)(nil)).Elem())
var tst = make([]IVariableContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IVariableContext)
}
}
return tst
}
func (s *RangeOperatorContext) Variable(i int) IVariableContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IVariableContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IVariableContext)
}
func (s *RangeOperatorContext) AllParam() []IParamContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IParamContext)(nil)).Elem())
var tst = make([]IParamContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IParamContext)
}
}
return tst
}
func (s *RangeOperatorContext) Param(i int) IParamContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IParamContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IParamContext)
}
func (s *RangeOperatorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *RangeOperatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *RangeOperatorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterRangeOperator(s)
}
}
func (s *RangeOperatorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitRangeOperator(s)
}
}
func (s *RangeOperatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitRangeOperator(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) RangeOperator() (localctx IRangeOperatorContext) {
localctx = NewRangeOperatorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 56, FqlParserRULE_rangeOperator)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
p.SetState(305)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserIntegerLiteral:
{
p.SetState(302)
p.IntegerLiteral()
}
case FqlParserIdentifier:
{
p.SetState(303)
p.Variable()
}
case FqlParserParam:
{
p.SetState(304)
p.Param()
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
{
p.SetState(307)
p.Match(FqlParserRange)
}
p.SetState(311)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserIntegerLiteral:
{
p.SetState(308)
p.IntegerLiteral()
}
case FqlParserIdentifier:
{
p.SetState(309)
p.Variable()
}
case FqlParserParam:
{
p.SetState(310)
p.Param()
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
return localctx
}
// IArrayLiteralContext is an interface to support dynamic dispatch.
type IArrayLiteralContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsArrayLiteralContext differentiates from other interfaces.
IsArrayLiteralContext()
}
type ArrayLiteralContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyArrayLiteralContext() *ArrayLiteralContext {
var p = new(ArrayLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_arrayLiteral
return p
}
func (*ArrayLiteralContext) IsArrayLiteralContext() {}
func NewArrayLiteralContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ArrayLiteralContext {
var p = new(ArrayLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_arrayLiteral
return p
}
func (s *ArrayLiteralContext) GetParser() antlr.Parser { return s.parser }
func (s *ArrayLiteralContext) OpenBracket() antlr.TerminalNode {
return s.GetToken(FqlParserOpenBracket, 0)
}
func (s *ArrayLiteralContext) CloseBracket() antlr.TerminalNode {
return s.GetToken(FqlParserCloseBracket, 0)
}
func (s *ArrayLiteralContext) ArrayElementList() IArrayElementListContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IArrayElementListContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IArrayElementListContext)
}
func (s *ArrayLiteralContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ArrayLiteralContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ArrayLiteralContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterArrayLiteral(s)
}
}
func (s *ArrayLiteralContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitArrayLiteral(s)
}
}
func (s *ArrayLiteralContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitArrayLiteral(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ArrayLiteral() (localctx IArrayLiteralContext) {
localctx = NewArrayLiteralContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 58, FqlParserRULE_arrayLiteral)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(313)
p.Match(FqlParserOpenBracket)
}
p.SetState(315)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if (((_la)&-(0x1f+1)) == 0 && ((1<<uint(_la))&((1<<FqlParserOpenBracket)|(1<<FqlParserOpenParen)|(1<<FqlParserOpenBrace)|(1<<FqlParserPlus)|(1<<FqlParserMinus))) != 0) || (((_la-44)&-(0x1f+1)) == 0 && ((1<<uint((_la-44)))&((1<<(FqlParserNone-44))|(1<<(FqlParserNull-44))|(1<<(FqlParserBooleanLiteral-44))|(1<<(FqlParserLike-44))|(1<<(FqlParserNot-44))|(1<<(FqlParserParam-44))|(1<<(FqlParserIdentifier-44))|(1<<(FqlParserStringLiteral-44))|(1<<(FqlParserTemplateStringLiteral-44))|(1<<(FqlParserIntegerLiteral-44))|(1<<(FqlParserFloatLiteral-44))|(1<<(FqlParserNamespaceSegment-44)))) != 0) {
{
p.SetState(314)
p.ArrayElementList()
}
}
{
p.SetState(317)
p.Match(FqlParserCloseBracket)
}
return localctx
}
// IObjectLiteralContext is an interface to support dynamic dispatch.
type IObjectLiteralContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsObjectLiteralContext differentiates from other interfaces.
IsObjectLiteralContext()
}
type ObjectLiteralContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyObjectLiteralContext() *ObjectLiteralContext {
var p = new(ObjectLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_objectLiteral
return p
}
func (*ObjectLiteralContext) IsObjectLiteralContext() {}
func NewObjectLiteralContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ObjectLiteralContext {
var p = new(ObjectLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_objectLiteral
return p
}
func (s *ObjectLiteralContext) GetParser() antlr.Parser { return s.parser }
func (s *ObjectLiteralContext) OpenBrace() antlr.TerminalNode {
return s.GetToken(FqlParserOpenBrace, 0)
}
func (s *ObjectLiteralContext) CloseBrace() antlr.TerminalNode {
return s.GetToken(FqlParserCloseBrace, 0)
}
func (s *ObjectLiteralContext) AllPropertyAssignment() []IPropertyAssignmentContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IPropertyAssignmentContext)(nil)).Elem())
var tst = make([]IPropertyAssignmentContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IPropertyAssignmentContext)
}
}
return tst
}
func (s *ObjectLiteralContext) PropertyAssignment(i int) IPropertyAssignmentContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IPropertyAssignmentContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IPropertyAssignmentContext)
}
func (s *ObjectLiteralContext) AllComma() []antlr.TerminalNode {
return s.GetTokens(FqlParserComma)
}
func (s *ObjectLiteralContext) Comma(i int) antlr.TerminalNode {
return s.GetToken(FqlParserComma, i)
}
func (s *ObjectLiteralContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ObjectLiteralContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ObjectLiteralContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterObjectLiteral(s)
}
}
func (s *ObjectLiteralContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitObjectLiteral(s)
}
}
func (s *ObjectLiteralContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitObjectLiteral(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ObjectLiteral() (localctx IObjectLiteralContext) {
localctx = NewObjectLiteralContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 60, FqlParserRULE_objectLiteral)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
var _alt int
p.EnterOuterAlt(localctx, 1)
{
p.SetState(319)
p.Match(FqlParserOpenBrace)
}
p.SetState(328)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if _la == FqlParserOpenBracket || (((_la-58)&-(0x1f+1)) == 0 && ((1<<uint((_la-58)))&((1<<(FqlParserIdentifier-58))|(1<<(FqlParserStringLiteral-58))|(1<<(FqlParserTemplateStringLiteral-58)))) != 0) {
{
p.SetState(320)
p.PropertyAssignment()
}
p.SetState(325)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 26, p.GetParserRuleContext())
for _alt != 2 && _alt != antlr.ATNInvalidAltNumber {
if _alt == 1 {
{
p.SetState(321)
p.Match(FqlParserComma)
}
{
p.SetState(322)
p.PropertyAssignment()
}
}
p.SetState(327)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 26, p.GetParserRuleContext())
}
}
p.SetState(331)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if _la == FqlParserComma {
{
p.SetState(330)
p.Match(FqlParserComma)
}
}
{
p.SetState(333)
p.Match(FqlParserCloseBrace)
}
return localctx
}
// IBooleanLiteralContext is an interface to support dynamic dispatch.
type IBooleanLiteralContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsBooleanLiteralContext differentiates from other interfaces.
IsBooleanLiteralContext()
}
type BooleanLiteralContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyBooleanLiteralContext() *BooleanLiteralContext {
var p = new(BooleanLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_booleanLiteral
return p
}
func (*BooleanLiteralContext) IsBooleanLiteralContext() {}
func NewBooleanLiteralContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *BooleanLiteralContext {
var p = new(BooleanLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_booleanLiteral
return p
}
func (s *BooleanLiteralContext) GetParser() antlr.Parser { return s.parser }
func (s *BooleanLiteralContext) BooleanLiteral() antlr.TerminalNode {
return s.GetToken(FqlParserBooleanLiteral, 0)
}
func (s *BooleanLiteralContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *BooleanLiteralContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *BooleanLiteralContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterBooleanLiteral(s)
}
}
func (s *BooleanLiteralContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitBooleanLiteral(s)
}
}
func (s *BooleanLiteralContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitBooleanLiteral(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) BooleanLiteral() (localctx IBooleanLiteralContext) {
localctx = NewBooleanLiteralContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 62, FqlParserRULE_booleanLiteral)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(335)
p.Match(FqlParserBooleanLiteral)
}
return localctx
}
// IStringLiteralContext is an interface to support dynamic dispatch.
type IStringLiteralContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsStringLiteralContext differentiates from other interfaces.
IsStringLiteralContext()
}
type StringLiteralContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyStringLiteralContext() *StringLiteralContext {
var p = new(StringLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_stringLiteral
return p
}
func (*StringLiteralContext) IsStringLiteralContext() {}
func NewStringLiteralContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *StringLiteralContext {
var p = new(StringLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_stringLiteral
return p
}
func (s *StringLiteralContext) GetParser() antlr.Parser { return s.parser }
func (s *StringLiteralContext) StringLiteral() antlr.TerminalNode {
return s.GetToken(FqlParserStringLiteral, 0)
}
func (s *StringLiteralContext) TemplateStringLiteral() antlr.TerminalNode {
return s.GetToken(FqlParserTemplateStringLiteral, 0)
}
func (s *StringLiteralContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *StringLiteralContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *StringLiteralContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterStringLiteral(s)
}
}
func (s *StringLiteralContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitStringLiteral(s)
}
}
func (s *StringLiteralContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitStringLiteral(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) StringLiteral() (localctx IStringLiteralContext) {
localctx = NewStringLiteralContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 64, FqlParserRULE_stringLiteral)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(337)
_la = p.GetTokenStream().LA(1)
if !(_la == FqlParserStringLiteral || _la == FqlParserTemplateStringLiteral) {
p.GetErrorHandler().RecoverInline(p)
} else {
p.GetErrorHandler().ReportMatch(p)
p.Consume()
}
}
return localctx
}
// IIntegerLiteralContext is an interface to support dynamic dispatch.
type IIntegerLiteralContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsIntegerLiteralContext differentiates from other interfaces.
IsIntegerLiteralContext()
}
type IntegerLiteralContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyIntegerLiteralContext() *IntegerLiteralContext {
var p = new(IntegerLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_integerLiteral
return p
}
func (*IntegerLiteralContext) IsIntegerLiteralContext() {}
func NewIntegerLiteralContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *IntegerLiteralContext {
var p = new(IntegerLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_integerLiteral
return p
}
func (s *IntegerLiteralContext) GetParser() antlr.Parser { return s.parser }
func (s *IntegerLiteralContext) IntegerLiteral() antlr.TerminalNode {
return s.GetToken(FqlParserIntegerLiteral, 0)
}
func (s *IntegerLiteralContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *IntegerLiteralContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *IntegerLiteralContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterIntegerLiteral(s)
}
}
func (s *IntegerLiteralContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitIntegerLiteral(s)
}
}
func (s *IntegerLiteralContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitIntegerLiteral(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) IntegerLiteral() (localctx IIntegerLiteralContext) {
localctx = NewIntegerLiteralContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 66, FqlParserRULE_integerLiteral)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(339)
p.Match(FqlParserIntegerLiteral)
}
return localctx
}
// IFloatLiteralContext is an interface to support dynamic dispatch.
type IFloatLiteralContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsFloatLiteralContext differentiates from other interfaces.
IsFloatLiteralContext()
}
type FloatLiteralContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyFloatLiteralContext() *FloatLiteralContext {
var p = new(FloatLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_floatLiteral
return p
}
func (*FloatLiteralContext) IsFloatLiteralContext() {}
func NewFloatLiteralContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *FloatLiteralContext {
var p = new(FloatLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_floatLiteral
return p
}
func (s *FloatLiteralContext) GetParser() antlr.Parser { return s.parser }
func (s *FloatLiteralContext) FloatLiteral() antlr.TerminalNode {
return s.GetToken(FqlParserFloatLiteral, 0)
}
func (s *FloatLiteralContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *FloatLiteralContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *FloatLiteralContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterFloatLiteral(s)
}
}
func (s *FloatLiteralContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitFloatLiteral(s)
}
}
func (s *FloatLiteralContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitFloatLiteral(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) FloatLiteral() (localctx IFloatLiteralContext) {
localctx = NewFloatLiteralContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 68, FqlParserRULE_floatLiteral)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(341)
p.Match(FqlParserFloatLiteral)
}
return localctx
}
// INoneLiteralContext is an interface to support dynamic dispatch.
type INoneLiteralContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsNoneLiteralContext differentiates from other interfaces.
IsNoneLiteralContext()
}
type NoneLiteralContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyNoneLiteralContext() *NoneLiteralContext {
var p = new(NoneLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_noneLiteral
return p
}
func (*NoneLiteralContext) IsNoneLiteralContext() {}
func NewNoneLiteralContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *NoneLiteralContext {
var p = new(NoneLiteralContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_noneLiteral
return p
}
func (s *NoneLiteralContext) GetParser() antlr.Parser { return s.parser }
func (s *NoneLiteralContext) Null() antlr.TerminalNode {
return s.GetToken(FqlParserNull, 0)
}
func (s *NoneLiteralContext) None() antlr.TerminalNode {
return s.GetToken(FqlParserNone, 0)
}
func (s *NoneLiteralContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *NoneLiteralContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *NoneLiteralContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterNoneLiteral(s)
}
}
func (s *NoneLiteralContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitNoneLiteral(s)
}
}
func (s *NoneLiteralContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitNoneLiteral(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) NoneLiteral() (localctx INoneLiteralContext) {
localctx = NewNoneLiteralContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 70, FqlParserRULE_noneLiteral)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(343)
_la = p.GetTokenStream().LA(1)
if !(_la == FqlParserNone || _la == FqlParserNull) {
p.GetErrorHandler().RecoverInline(p)
} else {
p.GetErrorHandler().ReportMatch(p)
p.Consume()
}
}
return localctx
}
// IArrayElementListContext is an interface to support dynamic dispatch.
type IArrayElementListContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsArrayElementListContext differentiates from other interfaces.
IsArrayElementListContext()
}
type ArrayElementListContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyArrayElementListContext() *ArrayElementListContext {
var p = new(ArrayElementListContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_arrayElementList
return p
}
func (*ArrayElementListContext) IsArrayElementListContext() {}
func NewArrayElementListContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ArrayElementListContext {
var p = new(ArrayElementListContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_arrayElementList
return p
}
func (s *ArrayElementListContext) GetParser() antlr.Parser { return s.parser }
func (s *ArrayElementListContext) AllExpression() []IExpressionContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IExpressionContext)(nil)).Elem())
var tst = make([]IExpressionContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IExpressionContext)
}
}
return tst
}
func (s *ArrayElementListContext) Expression(i int) IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *ArrayElementListContext) AllComma() []antlr.TerminalNode {
return s.GetTokens(FqlParserComma)
}
func (s *ArrayElementListContext) Comma(i int) antlr.TerminalNode {
return s.GetToken(FqlParserComma, i)
}
func (s *ArrayElementListContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ArrayElementListContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ArrayElementListContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterArrayElementList(s)
}
}
func (s *ArrayElementListContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitArrayElementList(s)
}
}
func (s *ArrayElementListContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitArrayElementList(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ArrayElementList() (localctx IArrayElementListContext) {
localctx = NewArrayElementListContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 72, FqlParserRULE_arrayElementList)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(345)
p.expression(0)
}
p.SetState(354)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
for _la == FqlParserComma {
p.SetState(347)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
for ok := true; ok; ok = _la == FqlParserComma {
{
p.SetState(346)
p.Match(FqlParserComma)
}
p.SetState(349)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
}
{
p.SetState(351)
p.expression(0)
}
p.SetState(356)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
}
return localctx
}
// IPropertyAssignmentContext is an interface to support dynamic dispatch.
type IPropertyAssignmentContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsPropertyAssignmentContext differentiates from other interfaces.
IsPropertyAssignmentContext()
}
type PropertyAssignmentContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyPropertyAssignmentContext() *PropertyAssignmentContext {
var p = new(PropertyAssignmentContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_propertyAssignment
return p
}
func (*PropertyAssignmentContext) IsPropertyAssignmentContext() {}
func NewPropertyAssignmentContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *PropertyAssignmentContext {
var p = new(PropertyAssignmentContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_propertyAssignment
return p
}
func (s *PropertyAssignmentContext) GetParser() antlr.Parser { return s.parser }
func (s *PropertyAssignmentContext) PropertyName() IPropertyNameContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IPropertyNameContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IPropertyNameContext)
}
func (s *PropertyAssignmentContext) Colon() antlr.TerminalNode {
return s.GetToken(FqlParserColon, 0)
}
func (s *PropertyAssignmentContext) Expression() IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *PropertyAssignmentContext) ComputedPropertyName() IComputedPropertyNameContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IComputedPropertyNameContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IComputedPropertyNameContext)
}
func (s *PropertyAssignmentContext) ShorthandPropertyName() IShorthandPropertyNameContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IShorthandPropertyNameContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IShorthandPropertyNameContext)
}
func (s *PropertyAssignmentContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *PropertyAssignmentContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *PropertyAssignmentContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterPropertyAssignment(s)
}
}
func (s *PropertyAssignmentContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitPropertyAssignment(s)
}
}
func (s *PropertyAssignmentContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitPropertyAssignment(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) PropertyAssignment() (localctx IPropertyAssignmentContext) {
localctx = NewPropertyAssignmentContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 74, FqlParserRULE_propertyAssignment)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(366)
p.GetErrorHandler().Sync(p)
switch p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 31, p.GetParserRuleContext()) {
case 1:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(357)
p.PropertyName()
}
{
p.SetState(358)
p.Match(FqlParserColon)
}
{
p.SetState(359)
p.expression(0)
}
case 2:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(361)
p.ComputedPropertyName()
}
{
p.SetState(362)
p.Match(FqlParserColon)
}
{
p.SetState(363)
p.expression(0)
}
case 3:
p.EnterOuterAlt(localctx, 3)
{
p.SetState(365)
p.ShorthandPropertyName()
}
}
return localctx
}
// IMemberExpressionContext is an interface to support dynamic dispatch.
type IMemberExpressionContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsMemberExpressionContext differentiates from other interfaces.
IsMemberExpressionContext()
}
type MemberExpressionContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyMemberExpressionContext() *MemberExpressionContext {
var p = new(MemberExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_memberExpression
return p
}
func (*MemberExpressionContext) IsMemberExpressionContext() {}
func NewMemberExpressionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *MemberExpressionContext {
var p = new(MemberExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_memberExpression
return p
}
func (s *MemberExpressionContext) GetParser() antlr.Parser { return s.parser }
func (s *MemberExpressionContext) Identifier() antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, 0)
}
func (s *MemberExpressionContext) AllDot() []antlr.TerminalNode {
return s.GetTokens(FqlParserDot)
}
func (s *MemberExpressionContext) Dot(i int) antlr.TerminalNode {
return s.GetToken(FqlParserDot, i)
}
func (s *MemberExpressionContext) AllPropertyName() []IPropertyNameContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IPropertyNameContext)(nil)).Elem())
var tst = make([]IPropertyNameContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IPropertyNameContext)
}
}
return tst
}
func (s *MemberExpressionContext) PropertyName(i int) IPropertyNameContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IPropertyNameContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IPropertyNameContext)
}
func (s *MemberExpressionContext) AllComputedPropertyName() []IComputedPropertyNameContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IComputedPropertyNameContext)(nil)).Elem())
var tst = make([]IComputedPropertyNameContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IComputedPropertyNameContext)
}
}
return tst
}
func (s *MemberExpressionContext) ComputedPropertyName(i int) IComputedPropertyNameContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IComputedPropertyNameContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IComputedPropertyNameContext)
}
func (s *MemberExpressionContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *MemberExpressionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *MemberExpressionContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterMemberExpression(s)
}
}
func (s *MemberExpressionContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitMemberExpression(s)
}
}
func (s *MemberExpressionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitMemberExpression(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) MemberExpression() (localctx IMemberExpressionContext) {
localctx = NewMemberExpressionContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 76, FqlParserRULE_memberExpression)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
var _alt int
p.SetState(409)
p.GetErrorHandler().Sync(p)
switch p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 38, p.GetParserRuleContext()) {
case 1:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(368)
p.Match(FqlParserIdentifier)
}
p.SetState(377)
p.GetErrorHandler().Sync(p)
_alt = 1
for ok := true; ok; ok = _alt != 2 && _alt != antlr.ATNInvalidAltNumber {
switch _alt {
case 1:
{
p.SetState(369)
p.Match(FqlParserDot)
}
{
p.SetState(370)
p.PropertyName()
}
p.SetState(374)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 32, p.GetParserRuleContext())
for _alt != 2 && _alt != antlr.ATNInvalidAltNumber {
if _alt == 1 {
{
p.SetState(371)
p.ComputedPropertyName()
}
}
p.SetState(376)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 32, p.GetParserRuleContext())
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
p.SetState(379)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 33, p.GetParserRuleContext())
}
case 2:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(381)
p.Match(FqlParserIdentifier)
}
{
p.SetState(382)
p.ComputedPropertyName()
}
p.SetState(393)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 35, p.GetParserRuleContext())
for _alt != 2 && _alt != antlr.ATNInvalidAltNumber {
if _alt == 1 {
{
p.SetState(383)
p.Match(FqlParserDot)
}
{
p.SetState(384)
p.PropertyName()
}
p.SetState(388)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 34, p.GetParserRuleContext())
for _alt != 2 && _alt != antlr.ATNInvalidAltNumber {
if _alt == 1 {
{
p.SetState(385)
p.ComputedPropertyName()
}
}
p.SetState(390)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 34, p.GetParserRuleContext())
}
}
p.SetState(395)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 35, p.GetParserRuleContext())
}
p.SetState(406)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 37, p.GetParserRuleContext())
for _alt != 2 && _alt != antlr.ATNInvalidAltNumber {
if _alt == 1 {
{
p.SetState(396)
p.ComputedPropertyName()
}
p.SetState(401)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 36, p.GetParserRuleContext())
for _alt != 2 && _alt != antlr.ATNInvalidAltNumber {
if _alt == 1 {
{
p.SetState(397)
p.Match(FqlParserDot)
}
{
p.SetState(398)
p.PropertyName()
}
}
p.SetState(403)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 36, p.GetParserRuleContext())
}
}
p.SetState(408)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 37, p.GetParserRuleContext())
}
}
return localctx
}
// IShorthandPropertyNameContext is an interface to support dynamic dispatch.
type IShorthandPropertyNameContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsShorthandPropertyNameContext differentiates from other interfaces.
IsShorthandPropertyNameContext()
}
type ShorthandPropertyNameContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyShorthandPropertyNameContext() *ShorthandPropertyNameContext {
var p = new(ShorthandPropertyNameContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_shorthandPropertyName
return p
}
func (*ShorthandPropertyNameContext) IsShorthandPropertyNameContext() {}
func NewShorthandPropertyNameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ShorthandPropertyNameContext {
var p = new(ShorthandPropertyNameContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_shorthandPropertyName
return p
}
func (s *ShorthandPropertyNameContext) GetParser() antlr.Parser { return s.parser }
func (s *ShorthandPropertyNameContext) Variable() IVariableContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IVariableContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IVariableContext)
}
func (s *ShorthandPropertyNameContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ShorthandPropertyNameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ShorthandPropertyNameContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterShorthandPropertyName(s)
}
}
func (s *ShorthandPropertyNameContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitShorthandPropertyName(s)
}
}
func (s *ShorthandPropertyNameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitShorthandPropertyName(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ShorthandPropertyName() (localctx IShorthandPropertyNameContext) {
localctx = NewShorthandPropertyNameContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 78, FqlParserRULE_shorthandPropertyName)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(411)
p.Variable()
}
return localctx
}
// IComputedPropertyNameContext is an interface to support dynamic dispatch.
type IComputedPropertyNameContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsComputedPropertyNameContext differentiates from other interfaces.
IsComputedPropertyNameContext()
}
type ComputedPropertyNameContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyComputedPropertyNameContext() *ComputedPropertyNameContext {
var p = new(ComputedPropertyNameContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_computedPropertyName
return p
}
func (*ComputedPropertyNameContext) IsComputedPropertyNameContext() {}
func NewComputedPropertyNameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ComputedPropertyNameContext {
var p = new(ComputedPropertyNameContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_computedPropertyName
return p
}
func (s *ComputedPropertyNameContext) GetParser() antlr.Parser { return s.parser }
func (s *ComputedPropertyNameContext) OpenBracket() antlr.TerminalNode {
return s.GetToken(FqlParserOpenBracket, 0)
}
func (s *ComputedPropertyNameContext) Expression() IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *ComputedPropertyNameContext) CloseBracket() antlr.TerminalNode {
return s.GetToken(FqlParserCloseBracket, 0)
}
func (s *ComputedPropertyNameContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ComputedPropertyNameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ComputedPropertyNameContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterComputedPropertyName(s)
}
}
func (s *ComputedPropertyNameContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitComputedPropertyName(s)
}
}
func (s *ComputedPropertyNameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitComputedPropertyName(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ComputedPropertyName() (localctx IComputedPropertyNameContext) {
localctx = NewComputedPropertyNameContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 80, FqlParserRULE_computedPropertyName)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(413)
p.Match(FqlParserOpenBracket)
}
{
p.SetState(414)
p.expression(0)
}
{
p.SetState(415)
p.Match(FqlParserCloseBracket)
}
return localctx
}
// IPropertyNameContext is an interface to support dynamic dispatch.
type IPropertyNameContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsPropertyNameContext differentiates from other interfaces.
IsPropertyNameContext()
}
type PropertyNameContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyPropertyNameContext() *PropertyNameContext {
var p = new(PropertyNameContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_propertyName
return p
}
func (*PropertyNameContext) IsPropertyNameContext() {}
func NewPropertyNameContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *PropertyNameContext {
var p = new(PropertyNameContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_propertyName
return p
}
func (s *PropertyNameContext) GetParser() antlr.Parser { return s.parser }
func (s *PropertyNameContext) Identifier() antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, 0)
}
func (s *PropertyNameContext) StringLiteral() IStringLiteralContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IStringLiteralContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IStringLiteralContext)
}
func (s *PropertyNameContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *PropertyNameContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *PropertyNameContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterPropertyName(s)
}
}
func (s *PropertyNameContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitPropertyName(s)
}
}
func (s *PropertyNameContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitPropertyName(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) PropertyName() (localctx IPropertyNameContext) {
localctx = NewPropertyNameContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 82, FqlParserRULE_propertyName)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(419)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserIdentifier:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(417)
p.Match(FqlParserIdentifier)
}
case FqlParserStringLiteral, FqlParserTemplateStringLiteral:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(418)
p.StringLiteral()
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
return localctx
}
// IExpressionGroupContext is an interface to support dynamic dispatch.
type IExpressionGroupContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsExpressionGroupContext differentiates from other interfaces.
IsExpressionGroupContext()
}
type ExpressionGroupContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyExpressionGroupContext() *ExpressionGroupContext {
var p = new(ExpressionGroupContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_expressionGroup
return p
}
func (*ExpressionGroupContext) IsExpressionGroupContext() {}
func NewExpressionGroupContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ExpressionGroupContext {
var p = new(ExpressionGroupContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_expressionGroup
return p
}
func (s *ExpressionGroupContext) GetParser() antlr.Parser { return s.parser }
func (s *ExpressionGroupContext) OpenParen() antlr.TerminalNode {
return s.GetToken(FqlParserOpenParen, 0)
}
func (s *ExpressionGroupContext) Expression() IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *ExpressionGroupContext) CloseParen() antlr.TerminalNode {
return s.GetToken(FqlParserCloseParen, 0)
}
func (s *ExpressionGroupContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ExpressionGroupContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ExpressionGroupContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterExpressionGroup(s)
}
}
func (s *ExpressionGroupContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitExpressionGroup(s)
}
}
func (s *ExpressionGroupContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitExpressionGroup(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ExpressionGroup() (localctx IExpressionGroupContext) {
localctx = NewExpressionGroupContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 84, FqlParserRULE_expressionGroup)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(421)
p.Match(FqlParserOpenParen)
}
{
p.SetState(422)
p.expression(0)
}
{
p.SetState(423)
p.Match(FqlParserCloseParen)
}
return localctx
}
// INamespaceContext is an interface to support dynamic dispatch.
type INamespaceContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsNamespaceContext differentiates from other interfaces.
IsNamespaceContext()
}
type NamespaceContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyNamespaceContext() *NamespaceContext {
var p = new(NamespaceContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_namespace
return p
}
func (*NamespaceContext) IsNamespaceContext() {}
func NewNamespaceContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *NamespaceContext {
var p = new(NamespaceContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_namespace
return p
}
func (s *NamespaceContext) GetParser() antlr.Parser { return s.parser }
func (s *NamespaceContext) AllNamespaceSegment() []antlr.TerminalNode {
return s.GetTokens(FqlParserNamespaceSegment)
}
func (s *NamespaceContext) NamespaceSegment(i int) antlr.TerminalNode {
return s.GetToken(FqlParserNamespaceSegment, i)
}
func (s *NamespaceContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *NamespaceContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *NamespaceContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterNamespace(s)
}
}
func (s *NamespaceContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitNamespace(s)
}
}
func (s *NamespaceContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitNamespace(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) Namespace() (localctx INamespaceContext) {
localctx = NewNamespaceContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 86, FqlParserRULE_namespace)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
p.SetState(428)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
for _la == FqlParserNamespaceSegment {
{
p.SetState(425)
p.Match(FqlParserNamespaceSegment)
}
p.SetState(430)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
}
return localctx
}
// IFunctionCallExpressionContext is an interface to support dynamic dispatch.
type IFunctionCallExpressionContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsFunctionCallExpressionContext differentiates from other interfaces.
IsFunctionCallExpressionContext()
}
type FunctionCallExpressionContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyFunctionCallExpressionContext() *FunctionCallExpressionContext {
var p = new(FunctionCallExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_functionCallExpression
return p
}
func (*FunctionCallExpressionContext) IsFunctionCallExpressionContext() {}
func NewFunctionCallExpressionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *FunctionCallExpressionContext {
var p = new(FunctionCallExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_functionCallExpression
return p
}
func (s *FunctionCallExpressionContext) GetParser() antlr.Parser { return s.parser }
func (s *FunctionCallExpressionContext) Namespace() INamespaceContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*INamespaceContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(INamespaceContext)
}
func (s *FunctionCallExpressionContext) Identifier() antlr.TerminalNode {
return s.GetToken(FqlParserIdentifier, 0)
}
func (s *FunctionCallExpressionContext) Arguments() IArgumentsContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IArgumentsContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IArgumentsContext)
}
func (s *FunctionCallExpressionContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *FunctionCallExpressionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *FunctionCallExpressionContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterFunctionCallExpression(s)
}
}
func (s *FunctionCallExpressionContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitFunctionCallExpression(s)
}
}
func (s *FunctionCallExpressionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitFunctionCallExpression(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) FunctionCallExpression() (localctx IFunctionCallExpressionContext) {
localctx = NewFunctionCallExpressionContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 88, FqlParserRULE_functionCallExpression)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(431)
p.Namespace()
}
{
p.SetState(432)
p.Match(FqlParserIdentifier)
}
{
p.SetState(433)
p.Arguments()
}
return localctx
}
// IArgumentsContext is an interface to support dynamic dispatch.
type IArgumentsContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsArgumentsContext differentiates from other interfaces.
IsArgumentsContext()
}
type ArgumentsContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyArgumentsContext() *ArgumentsContext {
var p = new(ArgumentsContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_arguments
return p
}
func (*ArgumentsContext) IsArgumentsContext() {}
func NewArgumentsContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ArgumentsContext {
var p = new(ArgumentsContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_arguments
return p
}
func (s *ArgumentsContext) GetParser() antlr.Parser { return s.parser }
func (s *ArgumentsContext) OpenParen() antlr.TerminalNode {
return s.GetToken(FqlParserOpenParen, 0)
}
func (s *ArgumentsContext) CloseParen() antlr.TerminalNode {
return s.GetToken(FqlParserCloseParen, 0)
}
func (s *ArgumentsContext) AllExpression() []IExpressionContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IExpressionContext)(nil)).Elem())
var tst = make([]IExpressionContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IExpressionContext)
}
}
return tst
}
func (s *ArgumentsContext) Expression(i int) IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *ArgumentsContext) AllComma() []antlr.TerminalNode {
return s.GetTokens(FqlParserComma)
}
func (s *ArgumentsContext) Comma(i int) antlr.TerminalNode {
return s.GetToken(FqlParserComma, i)
}
func (s *ArgumentsContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ArgumentsContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ArgumentsContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterArguments(s)
}
}
func (s *ArgumentsContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitArguments(s)
}
}
func (s *ArgumentsContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitArguments(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) Arguments() (localctx IArgumentsContext) {
localctx = NewArgumentsContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 90, FqlParserRULE_arguments)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(435)
p.Match(FqlParserOpenParen)
}
p.SetState(444)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if (((_la)&-(0x1f+1)) == 0 && ((1<<uint(_la))&((1<<FqlParserOpenBracket)|(1<<FqlParserOpenParen)|(1<<FqlParserOpenBrace)|(1<<FqlParserPlus)|(1<<FqlParserMinus))) != 0) || (((_la-44)&-(0x1f+1)) == 0 && ((1<<uint((_la-44)))&((1<<(FqlParserNone-44))|(1<<(FqlParserNull-44))|(1<<(FqlParserBooleanLiteral-44))|(1<<(FqlParserLike-44))|(1<<(FqlParserNot-44))|(1<<(FqlParserParam-44))|(1<<(FqlParserIdentifier-44))|(1<<(FqlParserStringLiteral-44))|(1<<(FqlParserTemplateStringLiteral-44))|(1<<(FqlParserIntegerLiteral-44))|(1<<(FqlParserFloatLiteral-44))|(1<<(FqlParserNamespaceSegment-44)))) != 0) {
{
p.SetState(436)
p.expression(0)
}
p.SetState(441)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
for _la == FqlParserComma {
{
p.SetState(437)
p.Match(FqlParserComma)
}
{
p.SetState(438)
p.expression(0)
}
p.SetState(443)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
}
}
{
p.SetState(446)
p.Match(FqlParserCloseParen)
}
return localctx
}
// IExpressionContext is an interface to support dynamic dispatch.
type IExpressionContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsExpressionContext differentiates from other interfaces.
IsExpressionContext()
}
type ExpressionContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyExpressionContext() *ExpressionContext {
var p = new(ExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_expression
return p
}
func (*ExpressionContext) IsExpressionContext() {}
func NewExpressionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ExpressionContext {
var p = new(ExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_expression
return p
}
func (s *ExpressionContext) GetParser() antlr.Parser { return s.parser }
func (s *ExpressionContext) UnaryOperator() IUnaryOperatorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IUnaryOperatorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IUnaryOperatorContext)
}
func (s *ExpressionContext) AllExpression() []IExpressionContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IExpressionContext)(nil)).Elem())
var tst = make([]IExpressionContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IExpressionContext)
}
}
return tst
}
func (s *ExpressionContext) Expression(i int) IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *ExpressionContext) FunctionCallExpression() IFunctionCallExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IFunctionCallExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IFunctionCallExpressionContext)
}
func (s *ExpressionContext) ExpressionGroup() IExpressionGroupContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionGroupContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IExpressionGroupContext)
}
func (s *ExpressionContext) RangeOperator() IRangeOperatorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IRangeOperatorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IRangeOperatorContext)
}
func (s *ExpressionContext) StringLiteral() IStringLiteralContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IStringLiteralContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IStringLiteralContext)
}
func (s *ExpressionContext) IntegerLiteral() IIntegerLiteralContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IIntegerLiteralContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IIntegerLiteralContext)
}
func (s *ExpressionContext) FloatLiteral() IFloatLiteralContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IFloatLiteralContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IFloatLiteralContext)
}
func (s *ExpressionContext) BooleanLiteral() IBooleanLiteralContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IBooleanLiteralContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IBooleanLiteralContext)
}
func (s *ExpressionContext) ArrayLiteral() IArrayLiteralContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IArrayLiteralContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IArrayLiteralContext)
}
func (s *ExpressionContext) ObjectLiteral() IObjectLiteralContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IObjectLiteralContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IObjectLiteralContext)
}
func (s *ExpressionContext) Variable() IVariableContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IVariableContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IVariableContext)
}
func (s *ExpressionContext) MemberExpression() IMemberExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IMemberExpressionContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IMemberExpressionContext)
}
func (s *ExpressionContext) NoneLiteral() INoneLiteralContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*INoneLiteralContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(INoneLiteralContext)
}
func (s *ExpressionContext) Param() IParamContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IParamContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IParamContext)
}
func (s *ExpressionContext) MultiplicativeOperator() IMultiplicativeOperatorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IMultiplicativeOperatorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IMultiplicativeOperatorContext)
}
func (s *ExpressionContext) AdditiveOperator() IAdditiveOperatorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IAdditiveOperatorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IAdditiveOperatorContext)
}
func (s *ExpressionContext) ArrayOperator() IArrayOperatorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IArrayOperatorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IArrayOperatorContext)
}
func (s *ExpressionContext) InOperator() IInOperatorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IInOperatorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IInOperatorContext)
}
func (s *ExpressionContext) EqualityOperator() IEqualityOperatorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IEqualityOperatorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(IEqualityOperatorContext)
}
func (s *ExpressionContext) LogicalAndOperator() ILogicalAndOperatorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ILogicalAndOperatorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(ILogicalAndOperatorContext)
}
func (s *ExpressionContext) LogicalOrOperator() ILogicalOrOperatorContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*ILogicalOrOperatorContext)(nil)).Elem(), 0)
if t == nil {
return nil
}
return t.(ILogicalOrOperatorContext)
}
func (s *ExpressionContext) QuestionMark() antlr.TerminalNode {
return s.GetToken(FqlParserQuestionMark, 0)
}
func (s *ExpressionContext) Colon() antlr.TerminalNode {
return s.GetToken(FqlParserColon, 0)
}
func (s *ExpressionContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ExpressionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ExpressionContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterExpression(s)
}
}
func (s *ExpressionContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitExpression(s)
}
}
func (s *ExpressionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitExpression(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) Expression() (localctx IExpressionContext) {
return p.expression(0)
}
func (p *FqlParser) expression(_p int) (localctx IExpressionContext) {
var _parentctx antlr.ParserRuleContext = p.GetParserRuleContext()
_parentState := p.GetState()
localctx = NewExpressionContext(p, p.GetParserRuleContext(), _parentState)
var _prevctx IExpressionContext = localctx
var _ antlr.ParserRuleContext = _prevctx // TODO: To prevent unused variable warning.
_startState := 92
p.EnterRecursionRule(localctx, 92, FqlParserRULE_expression, _p)
var _la int
defer func() {
p.UnrollRecursionContexts(_parentctx)
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
var _alt int
p.EnterOuterAlt(localctx, 1)
p.SetState(465)
p.GetErrorHandler().Sync(p)
switch p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 43, p.GetParserRuleContext()) {
case 1:
{
p.SetState(449)
p.UnaryOperator()
}
{
p.SetState(450)
p.expression(22)
}
case 2:
{
p.SetState(452)
p.FunctionCallExpression()
}
case 3:
{
p.SetState(453)
p.ExpressionGroup()
}
case 4:
{
p.SetState(454)
p.RangeOperator()
}
case 5:
{
p.SetState(455)
p.StringLiteral()
}
case 6:
{
p.SetState(456)
p.IntegerLiteral()
}
case 7:
{
p.SetState(457)
p.FloatLiteral()
}
case 8:
{
p.SetState(458)
p.BooleanLiteral()
}
case 9:
{
p.SetState(459)
p.ArrayLiteral()
}
case 10:
{
p.SetState(460)
p.ObjectLiteral()
}
case 11:
{
p.SetState(461)
p.Variable()
}
case 12:
{
p.SetState(462)
p.MemberExpression()
}
case 13:
{
p.SetState(463)
p.NoneLiteral()
}
case 14:
{
p.SetState(464)
p.Param()
}
}
p.GetParserRuleContext().SetStop(p.GetTokenStream().LT(-1))
p.SetState(508)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 47, p.GetParserRuleContext())
for _alt != 2 && _alt != antlr.ATNInvalidAltNumber {
if _alt == 1 {
if p.GetParseListeners() != nil {
p.TriggerExitRuleEvent()
}
_prevctx = localctx
p.SetState(506)
p.GetErrorHandler().Sync(p)
switch p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 46, p.GetParserRuleContext()) {
case 1:
localctx = NewExpressionContext(p, _parentctx, _parentState)
p.PushNewRecursionContext(localctx, _startState, FqlParserRULE_expression)
p.SetState(467)
if !(p.Precpred(p.GetParserRuleContext(), 21)) {
panic(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 21)", ""))
}
{
p.SetState(468)
p.MultiplicativeOperator()
}
{
p.SetState(469)
p.expression(22)
}
case 2:
localctx = NewExpressionContext(p, _parentctx, _parentState)
p.PushNewRecursionContext(localctx, _startState, FqlParserRULE_expression)
p.SetState(471)
if !(p.Precpred(p.GetParserRuleContext(), 20)) {
panic(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 20)", ""))
}
{
p.SetState(472)
p.AdditiveOperator()
}
{
p.SetState(473)
p.expression(21)
}
case 3:
localctx = NewExpressionContext(p, _parentctx, _parentState)
p.PushNewRecursionContext(localctx, _startState, FqlParserRULE_expression)
p.SetState(475)
if !(p.Precpred(p.GetParserRuleContext(), 17)) {
panic(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 17)", ""))
}
{
p.SetState(476)
p.ArrayOperator()
}
p.SetState(479)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserNot, FqlParserIn:
{
p.SetState(477)
p.InOperator()
}
case FqlParserGt, FqlParserLt, FqlParserEq, FqlParserGte, FqlParserLte, FqlParserNeq:
{
p.SetState(478)
p.EqualityOperator()
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
{
p.SetState(481)
p.expression(18)
}
case 4:
localctx = NewExpressionContext(p, _parentctx, _parentState)
p.PushNewRecursionContext(localctx, _startState, FqlParserRULE_expression)
p.SetState(483)
if !(p.Precpred(p.GetParserRuleContext(), 16)) {
panic(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 16)", ""))
}
{
p.SetState(484)
p.InOperator()
}
{
p.SetState(485)
p.expression(17)
}
case 5:
localctx = NewExpressionContext(p, _parentctx, _parentState)
p.PushNewRecursionContext(localctx, _startState, FqlParserRULE_expression)
p.SetState(487)
if !(p.Precpred(p.GetParserRuleContext(), 15)) {
panic(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 15)", ""))
}
{
p.SetState(488)
p.EqualityOperator()
}
{
p.SetState(489)
p.expression(16)
}
case 6:
localctx = NewExpressionContext(p, _parentctx, _parentState)
p.PushNewRecursionContext(localctx, _startState, FqlParserRULE_expression)
p.SetState(491)
if !(p.Precpred(p.GetParserRuleContext(), 14)) {
panic(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 14)", ""))
}
{
p.SetState(492)
p.LogicalAndOperator()
}
{
p.SetState(493)
p.expression(15)
}
case 7:
localctx = NewExpressionContext(p, _parentctx, _parentState)
p.PushNewRecursionContext(localctx, _startState, FqlParserRULE_expression)
p.SetState(495)
if !(p.Precpred(p.GetParserRuleContext(), 13)) {
panic(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 13)", ""))
}
{
p.SetState(496)
p.LogicalOrOperator()
}
{
p.SetState(497)
p.expression(14)
}
case 8:
localctx = NewExpressionContext(p, _parentctx, _parentState)
p.PushNewRecursionContext(localctx, _startState, FqlParserRULE_expression)
p.SetState(499)
if !(p.Precpred(p.GetParserRuleContext(), 12)) {
panic(antlr.NewFailedPredicateException(p, "p.Precpred(p.GetParserRuleContext(), 12)", ""))
}
{
p.SetState(500)
p.Match(FqlParserQuestionMark)
}
p.SetState(502)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if (((_la)&-(0x1f+1)) == 0 && ((1<<uint(_la))&((1<<FqlParserOpenBracket)|(1<<FqlParserOpenParen)|(1<<FqlParserOpenBrace)|(1<<FqlParserPlus)|(1<<FqlParserMinus))) != 0) || (((_la-44)&-(0x1f+1)) == 0 && ((1<<uint((_la-44)))&((1<<(FqlParserNone-44))|(1<<(FqlParserNull-44))|(1<<(FqlParserBooleanLiteral-44))|(1<<(FqlParserLike-44))|(1<<(FqlParserNot-44))|(1<<(FqlParserParam-44))|(1<<(FqlParserIdentifier-44))|(1<<(FqlParserStringLiteral-44))|(1<<(FqlParserTemplateStringLiteral-44))|(1<<(FqlParserIntegerLiteral-44))|(1<<(FqlParserFloatLiteral-44))|(1<<(FqlParserNamespaceSegment-44)))) != 0) {
{
p.SetState(501)
p.expression(0)
}
}
{
p.SetState(504)
p.Match(FqlParserColon)
}
{
p.SetState(505)
p.expression(13)
}
}
}
p.SetState(510)
p.GetErrorHandler().Sync(p)
_alt = p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 47, p.GetParserRuleContext())
}
return localctx
}
// IForTernaryExpressionContext is an interface to support dynamic dispatch.
type IForTernaryExpressionContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsForTernaryExpressionContext differentiates from other interfaces.
IsForTernaryExpressionContext()
}
type ForTernaryExpressionContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyForTernaryExpressionContext() *ForTernaryExpressionContext {
var p = new(ForTernaryExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_forTernaryExpression
return p
}
func (*ForTernaryExpressionContext) IsForTernaryExpressionContext() {}
func NewForTernaryExpressionContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ForTernaryExpressionContext {
var p = new(ForTernaryExpressionContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_forTernaryExpression
return p
}
func (s *ForTernaryExpressionContext) GetParser() antlr.Parser { return s.parser }
func (s *ForTernaryExpressionContext) AllExpression() []IExpressionContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IExpressionContext)(nil)).Elem())
var tst = make([]IExpressionContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IExpressionContext)
}
}
return tst
}
func (s *ForTernaryExpressionContext) Expression(i int) IExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IExpressionContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IExpressionContext)
}
func (s *ForTernaryExpressionContext) QuestionMark() antlr.TerminalNode {
return s.GetToken(FqlParserQuestionMark, 0)
}
func (s *ForTernaryExpressionContext) Colon() antlr.TerminalNode {
return s.GetToken(FqlParserColon, 0)
}
func (s *ForTernaryExpressionContext) AllOpenParen() []antlr.TerminalNode {
return s.GetTokens(FqlParserOpenParen)
}
func (s *ForTernaryExpressionContext) OpenParen(i int) antlr.TerminalNode {
return s.GetToken(FqlParserOpenParen, i)
}
func (s *ForTernaryExpressionContext) AllForExpression() []IForExpressionContext {
var ts = s.GetTypedRuleContexts(reflect.TypeOf((*IForExpressionContext)(nil)).Elem())
var tst = make([]IForExpressionContext, len(ts))
for i, t := range ts {
if t != nil {
tst[i] = t.(IForExpressionContext)
}
}
return tst
}
func (s *ForTernaryExpressionContext) ForExpression(i int) IForExpressionContext {
var t = s.GetTypedRuleContext(reflect.TypeOf((*IForExpressionContext)(nil)).Elem(), i)
if t == nil {
return nil
}
return t.(IForExpressionContext)
}
func (s *ForTernaryExpressionContext) AllCloseParen() []antlr.TerminalNode {
return s.GetTokens(FqlParserCloseParen)
}
func (s *ForTernaryExpressionContext) CloseParen(i int) antlr.TerminalNode {
return s.GetToken(FqlParserCloseParen, i)
}
func (s *ForTernaryExpressionContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ForTernaryExpressionContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ForTernaryExpressionContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterForTernaryExpression(s)
}
}
func (s *ForTernaryExpressionContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitForTernaryExpression(s)
}
}
func (s *ForTernaryExpressionContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitForTernaryExpression(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ForTernaryExpression() (localctx IForTernaryExpressionContext) {
localctx = NewForTernaryExpressionContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 94, FqlParserRULE_forTernaryExpression)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(539)
p.GetErrorHandler().Sync(p)
switch p.GetInterpreter().AdaptivePredict(p.GetTokenStream(), 49, p.GetParserRuleContext()) {
case 1:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(511)
p.expression(0)
}
{
p.SetState(512)
p.Match(FqlParserQuestionMark)
}
p.SetState(514)
p.GetErrorHandler().Sync(p)
_la = p.GetTokenStream().LA(1)
if (((_la)&-(0x1f+1)) == 0 && ((1<<uint(_la))&((1<<FqlParserOpenBracket)|(1<<FqlParserOpenParen)|(1<<FqlParserOpenBrace)|(1<<FqlParserPlus)|(1<<FqlParserMinus))) != 0) || (((_la-44)&-(0x1f+1)) == 0 && ((1<<uint((_la-44)))&((1<<(FqlParserNone-44))|(1<<(FqlParserNull-44))|(1<<(FqlParserBooleanLiteral-44))|(1<<(FqlParserLike-44))|(1<<(FqlParserNot-44))|(1<<(FqlParserParam-44))|(1<<(FqlParserIdentifier-44))|(1<<(FqlParserStringLiteral-44))|(1<<(FqlParserTemplateStringLiteral-44))|(1<<(FqlParserIntegerLiteral-44))|(1<<(FqlParserFloatLiteral-44))|(1<<(FqlParserNamespaceSegment-44)))) != 0) {
{
p.SetState(513)
p.expression(0)
}
}
{
p.SetState(516)
p.Match(FqlParserColon)
}
{
p.SetState(517)
p.Match(FqlParserOpenParen)
}
{
p.SetState(518)
p.ForExpression()
}
{
p.SetState(519)
p.Match(FqlParserCloseParen)
}
case 2:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(521)
p.expression(0)
}
{
p.SetState(522)
p.Match(FqlParserQuestionMark)
}
{
p.SetState(523)
p.Match(FqlParserOpenParen)
}
{
p.SetState(524)
p.ForExpression()
}
{
p.SetState(525)
p.Match(FqlParserCloseParen)
}
{
p.SetState(526)
p.Match(FqlParserColon)
}
{
p.SetState(527)
p.expression(0)
}
case 3:
p.EnterOuterAlt(localctx, 3)
{
p.SetState(529)
p.expression(0)
}
{
p.SetState(530)
p.Match(FqlParserQuestionMark)
}
{
p.SetState(531)
p.Match(FqlParserOpenParen)
}
{
p.SetState(532)
p.ForExpression()
}
{
p.SetState(533)
p.Match(FqlParserCloseParen)
}
{
p.SetState(534)
p.Match(FqlParserColon)
}
{
p.SetState(535)
p.Match(FqlParserOpenParen)
}
{
p.SetState(536)
p.ForExpression()
}
{
p.SetState(537)
p.Match(FqlParserCloseParen)
}
}
return localctx
}
// IArrayOperatorContext is an interface to support dynamic dispatch.
type IArrayOperatorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsArrayOperatorContext differentiates from other interfaces.
IsArrayOperatorContext()
}
type ArrayOperatorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyArrayOperatorContext() *ArrayOperatorContext {
var p = new(ArrayOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_arrayOperator
return p
}
func (*ArrayOperatorContext) IsArrayOperatorContext() {}
func NewArrayOperatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *ArrayOperatorContext {
var p = new(ArrayOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_arrayOperator
return p
}
func (s *ArrayOperatorContext) GetParser() antlr.Parser { return s.parser }
func (s *ArrayOperatorContext) All() antlr.TerminalNode {
return s.GetToken(FqlParserAll, 0)
}
func (s *ArrayOperatorContext) Any() antlr.TerminalNode {
return s.GetToken(FqlParserAny, 0)
}
func (s *ArrayOperatorContext) None() antlr.TerminalNode {
return s.GetToken(FqlParserNone, 0)
}
func (s *ArrayOperatorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *ArrayOperatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *ArrayOperatorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterArrayOperator(s)
}
}
func (s *ArrayOperatorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitArrayOperator(s)
}
}
func (s *ArrayOperatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitArrayOperator(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) ArrayOperator() (localctx IArrayOperatorContext) {
localctx = NewArrayOperatorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 96, FqlParserRULE_arrayOperator)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(541)
_la = p.GetTokenStream().LA(1)
if !(((_la-44)&-(0x1f+1)) == 0 && ((1<<uint((_la-44)))&((1<<(FqlParserNone-44))|(1<<(FqlParserAll-44))|(1<<(FqlParserAny-44)))) != 0) {
p.GetErrorHandler().RecoverInline(p)
} else {
p.GetErrorHandler().ReportMatch(p)
p.Consume()
}
}
return localctx
}
// IInOperatorContext is an interface to support dynamic dispatch.
type IInOperatorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsInOperatorContext differentiates from other interfaces.
IsInOperatorContext()
}
type InOperatorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyInOperatorContext() *InOperatorContext {
var p = new(InOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_inOperator
return p
}
func (*InOperatorContext) IsInOperatorContext() {}
func NewInOperatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *InOperatorContext {
var p = new(InOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_inOperator
return p
}
func (s *InOperatorContext) GetParser() antlr.Parser { return s.parser }
func (s *InOperatorContext) In() antlr.TerminalNode {
return s.GetToken(FqlParserIn, 0)
}
func (s *InOperatorContext) Not() antlr.TerminalNode {
return s.GetToken(FqlParserNot, 0)
}
func (s *InOperatorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *InOperatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *InOperatorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterInOperator(s)
}
}
func (s *InOperatorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitInOperator(s)
}
}
func (s *InOperatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitInOperator(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) InOperator() (localctx IInOperatorContext) {
localctx = NewInOperatorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 98, FqlParserRULE_inOperator)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.SetState(546)
p.GetErrorHandler().Sync(p)
switch p.GetTokenStream().LA(1) {
case FqlParserIn:
p.EnterOuterAlt(localctx, 1)
{
p.SetState(543)
p.Match(FqlParserIn)
}
case FqlParserNot:
p.EnterOuterAlt(localctx, 2)
{
p.SetState(544)
p.Match(FqlParserNot)
}
{
p.SetState(545)
p.Match(FqlParserIn)
}
default:
panic(antlr.NewNoViableAltException(p, nil, nil, nil, nil, nil))
}
return localctx
}
// IEqualityOperatorContext is an interface to support dynamic dispatch.
type IEqualityOperatorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsEqualityOperatorContext differentiates from other interfaces.
IsEqualityOperatorContext()
}
type EqualityOperatorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyEqualityOperatorContext() *EqualityOperatorContext {
var p = new(EqualityOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_equalityOperator
return p
}
func (*EqualityOperatorContext) IsEqualityOperatorContext() {}
func NewEqualityOperatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *EqualityOperatorContext {
var p = new(EqualityOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_equalityOperator
return p
}
func (s *EqualityOperatorContext) GetParser() antlr.Parser { return s.parser }
func (s *EqualityOperatorContext) Gt() antlr.TerminalNode {
return s.GetToken(FqlParserGt, 0)
}
func (s *EqualityOperatorContext) Lt() antlr.TerminalNode {
return s.GetToken(FqlParserLt, 0)
}
func (s *EqualityOperatorContext) Eq() antlr.TerminalNode {
return s.GetToken(FqlParserEq, 0)
}
func (s *EqualityOperatorContext) Gte() antlr.TerminalNode {
return s.GetToken(FqlParserGte, 0)
}
func (s *EqualityOperatorContext) Lte() antlr.TerminalNode {
return s.GetToken(FqlParserLte, 0)
}
func (s *EqualityOperatorContext) Neq() antlr.TerminalNode {
return s.GetToken(FqlParserNeq, 0)
}
func (s *EqualityOperatorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *EqualityOperatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *EqualityOperatorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterEqualityOperator(s)
}
}
func (s *EqualityOperatorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitEqualityOperator(s)
}
}
func (s *EqualityOperatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitEqualityOperator(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) EqualityOperator() (localctx IEqualityOperatorContext) {
localctx = NewEqualityOperatorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 100, FqlParserRULE_equalityOperator)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(548)
_la = p.GetTokenStream().LA(1)
if !(((_la)&-(0x1f+1)) == 0 && ((1<<uint(_la))&((1<<FqlParserGt)|(1<<FqlParserLt)|(1<<FqlParserEq)|(1<<FqlParserGte)|(1<<FqlParserLte)|(1<<FqlParserNeq))) != 0) {
p.GetErrorHandler().RecoverInline(p)
} else {
p.GetErrorHandler().ReportMatch(p)
p.Consume()
}
}
return localctx
}
// ILogicalAndOperatorContext is an interface to support dynamic dispatch.
type ILogicalAndOperatorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsLogicalAndOperatorContext differentiates from other interfaces.
IsLogicalAndOperatorContext()
}
type LogicalAndOperatorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyLogicalAndOperatorContext() *LogicalAndOperatorContext {
var p = new(LogicalAndOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_logicalAndOperator
return p
}
func (*LogicalAndOperatorContext) IsLogicalAndOperatorContext() {}
func NewLogicalAndOperatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *LogicalAndOperatorContext {
var p = new(LogicalAndOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_logicalAndOperator
return p
}
func (s *LogicalAndOperatorContext) GetParser() antlr.Parser { return s.parser }
func (s *LogicalAndOperatorContext) And() antlr.TerminalNode {
return s.GetToken(FqlParserAnd, 0)
}
func (s *LogicalAndOperatorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *LogicalAndOperatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *LogicalAndOperatorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterLogicalAndOperator(s)
}
}
func (s *LogicalAndOperatorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitLogicalAndOperator(s)
}
}
func (s *LogicalAndOperatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitLogicalAndOperator(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) LogicalAndOperator() (localctx ILogicalAndOperatorContext) {
localctx = NewLogicalAndOperatorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 102, FqlParserRULE_logicalAndOperator)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(550)
p.Match(FqlParserAnd)
}
return localctx
}
// ILogicalOrOperatorContext is an interface to support dynamic dispatch.
type ILogicalOrOperatorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsLogicalOrOperatorContext differentiates from other interfaces.
IsLogicalOrOperatorContext()
}
type LogicalOrOperatorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyLogicalOrOperatorContext() *LogicalOrOperatorContext {
var p = new(LogicalOrOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_logicalOrOperator
return p
}
func (*LogicalOrOperatorContext) IsLogicalOrOperatorContext() {}
func NewLogicalOrOperatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *LogicalOrOperatorContext {
var p = new(LogicalOrOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_logicalOrOperator
return p
}
func (s *LogicalOrOperatorContext) GetParser() antlr.Parser { return s.parser }
func (s *LogicalOrOperatorContext) Or() antlr.TerminalNode {
return s.GetToken(FqlParserOr, 0)
}
func (s *LogicalOrOperatorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *LogicalOrOperatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *LogicalOrOperatorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterLogicalOrOperator(s)
}
}
func (s *LogicalOrOperatorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitLogicalOrOperator(s)
}
}
func (s *LogicalOrOperatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitLogicalOrOperator(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) LogicalOrOperator() (localctx ILogicalOrOperatorContext) {
localctx = NewLogicalOrOperatorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 104, FqlParserRULE_logicalOrOperator)
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(552)
p.Match(FqlParserOr)
}
return localctx
}
// IMultiplicativeOperatorContext is an interface to support dynamic dispatch.
type IMultiplicativeOperatorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsMultiplicativeOperatorContext differentiates from other interfaces.
IsMultiplicativeOperatorContext()
}
type MultiplicativeOperatorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyMultiplicativeOperatorContext() *MultiplicativeOperatorContext {
var p = new(MultiplicativeOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_multiplicativeOperator
return p
}
func (*MultiplicativeOperatorContext) IsMultiplicativeOperatorContext() {}
func NewMultiplicativeOperatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *MultiplicativeOperatorContext {
var p = new(MultiplicativeOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_multiplicativeOperator
return p
}
func (s *MultiplicativeOperatorContext) GetParser() antlr.Parser { return s.parser }
func (s *MultiplicativeOperatorContext) Multi() antlr.TerminalNode {
return s.GetToken(FqlParserMulti, 0)
}
func (s *MultiplicativeOperatorContext) Div() antlr.TerminalNode {
return s.GetToken(FqlParserDiv, 0)
}
func (s *MultiplicativeOperatorContext) Mod() antlr.TerminalNode {
return s.GetToken(FqlParserMod, 0)
}
func (s *MultiplicativeOperatorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *MultiplicativeOperatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *MultiplicativeOperatorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterMultiplicativeOperator(s)
}
}
func (s *MultiplicativeOperatorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitMultiplicativeOperator(s)
}
}
func (s *MultiplicativeOperatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitMultiplicativeOperator(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) MultiplicativeOperator() (localctx IMultiplicativeOperatorContext) {
localctx = NewMultiplicativeOperatorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 106, FqlParserRULE_multiplicativeOperator)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(554)
_la = p.GetTokenStream().LA(1)
if !(((_la)&-(0x1f+1)) == 0 && ((1<<uint(_la))&((1<<FqlParserMulti)|(1<<FqlParserDiv)|(1<<FqlParserMod))) != 0) {
p.GetErrorHandler().RecoverInline(p)
} else {
p.GetErrorHandler().ReportMatch(p)
p.Consume()
}
}
return localctx
}
// IAdditiveOperatorContext is an interface to support dynamic dispatch.
type IAdditiveOperatorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsAdditiveOperatorContext differentiates from other interfaces.
IsAdditiveOperatorContext()
}
type AdditiveOperatorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyAdditiveOperatorContext() *AdditiveOperatorContext {
var p = new(AdditiveOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_additiveOperator
return p
}
func (*AdditiveOperatorContext) IsAdditiveOperatorContext() {}
func NewAdditiveOperatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *AdditiveOperatorContext {
var p = new(AdditiveOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_additiveOperator
return p
}
func (s *AdditiveOperatorContext) GetParser() antlr.Parser { return s.parser }
func (s *AdditiveOperatorContext) Plus() antlr.TerminalNode {
return s.GetToken(FqlParserPlus, 0)
}
func (s *AdditiveOperatorContext) Minus() antlr.TerminalNode {
return s.GetToken(FqlParserMinus, 0)
}
func (s *AdditiveOperatorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *AdditiveOperatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *AdditiveOperatorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterAdditiveOperator(s)
}
}
func (s *AdditiveOperatorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitAdditiveOperator(s)
}
}
func (s *AdditiveOperatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitAdditiveOperator(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) AdditiveOperator() (localctx IAdditiveOperatorContext) {
localctx = NewAdditiveOperatorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 108, FqlParserRULE_additiveOperator)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(556)
_la = p.GetTokenStream().LA(1)
if !(_la == FqlParserPlus || _la == FqlParserMinus) {
p.GetErrorHandler().RecoverInline(p)
} else {
p.GetErrorHandler().ReportMatch(p)
p.Consume()
}
}
return localctx
}
// IUnaryOperatorContext is an interface to support dynamic dispatch.
type IUnaryOperatorContext interface {
antlr.ParserRuleContext
// GetParser returns the parser.
GetParser() antlr.Parser
// IsUnaryOperatorContext differentiates from other interfaces.
IsUnaryOperatorContext()
}
type UnaryOperatorContext struct {
*antlr.BaseParserRuleContext
parser antlr.Parser
}
func NewEmptyUnaryOperatorContext() *UnaryOperatorContext {
var p = new(UnaryOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(nil, -1)
p.RuleIndex = FqlParserRULE_unaryOperator
return p
}
func (*UnaryOperatorContext) IsUnaryOperatorContext() {}
func NewUnaryOperatorContext(parser antlr.Parser, parent antlr.ParserRuleContext, invokingState int) *UnaryOperatorContext {
var p = new(UnaryOperatorContext)
p.BaseParserRuleContext = antlr.NewBaseParserRuleContext(parent, invokingState)
p.parser = parser
p.RuleIndex = FqlParserRULE_unaryOperator
return p
}
func (s *UnaryOperatorContext) GetParser() antlr.Parser { return s.parser }
func (s *UnaryOperatorContext) Not() antlr.TerminalNode {
return s.GetToken(FqlParserNot, 0)
}
func (s *UnaryOperatorContext) Plus() antlr.TerminalNode {
return s.GetToken(FqlParserPlus, 0)
}
func (s *UnaryOperatorContext) Minus() antlr.TerminalNode {
return s.GetToken(FqlParserMinus, 0)
}
func (s *UnaryOperatorContext) Like() antlr.TerminalNode {
return s.GetToken(FqlParserLike, 0)
}
func (s *UnaryOperatorContext) GetRuleContext() antlr.RuleContext {
return s
}
func (s *UnaryOperatorContext) ToStringTree(ruleNames []string, recog antlr.Recognizer) string {
return antlr.TreesStringTree(s, ruleNames, recog)
}
func (s *UnaryOperatorContext) EnterRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.EnterUnaryOperator(s)
}
}
func (s *UnaryOperatorContext) ExitRule(listener antlr.ParseTreeListener) {
if listenerT, ok := listener.(FqlParserListener); ok {
listenerT.ExitUnaryOperator(s)
}
}
func (s *UnaryOperatorContext) Accept(visitor antlr.ParseTreeVisitor) interface{} {
switch t := visitor.(type) {
case FqlParserVisitor:
return t.VisitUnaryOperator(s)
default:
return t.VisitChildren(s)
}
}
func (p *FqlParser) UnaryOperator() (localctx IUnaryOperatorContext) {
localctx = NewUnaryOperatorContext(p, p.GetParserRuleContext(), p.GetState())
p.EnterRule(localctx, 110, FqlParserRULE_unaryOperator)
var _la int
defer func() {
p.ExitRule()
}()
defer func() {
if err := recover(); err != nil {
if v, ok := err.(antlr.RecognitionException); ok {
localctx.SetException(v)
p.GetErrorHandler().ReportError(p, v)
p.GetErrorHandler().Recover(p, v)
} else {
panic(err)
}
}
}()
p.EnterOuterAlt(localctx, 1)
{
p.SetState(558)
_la = p.GetTokenStream().LA(1)
if !(((_la-24)&-(0x1f+1)) == 0 && ((1<<uint((_la-24)))&((1<<(FqlParserPlus-24))|(1<<(FqlParserMinus-24))|(1<<(FqlParserLike-24))|(1<<(FqlParserNot-24)))) != 0) {
p.GetErrorHandler().RecoverInline(p)
} else {
p.GetErrorHandler().ReportMatch(p)
p.Consume()
}
}
return localctx
}
func (p *FqlParser) Sempred(localctx antlr.RuleContext, ruleIndex, predIndex int) bool {
switch ruleIndex {
case 46:
var t *ExpressionContext = nil
if localctx != nil {
t = localctx.(*ExpressionContext)
}
return p.Expression_Sempred(t, predIndex)
default:
panic("No predicate with index: " + fmt.Sprint(ruleIndex))
}
}
func (p *FqlParser) Expression_Sempred(localctx antlr.RuleContext, predIndex int) bool {
switch predIndex {
case 0:
return p.Precpred(p.GetParserRuleContext(), 21)
case 1:
return p.Precpred(p.GetParserRuleContext(), 20)
case 2:
return p.Precpred(p.GetParserRuleContext(), 17)
case 3:
return p.Precpred(p.GetParserRuleContext(), 16)
case 4:
return p.Precpred(p.GetParserRuleContext(), 15)
case 5:
return p.Precpred(p.GetParserRuleContext(), 14)
case 6:
return p.Precpred(p.GetParserRuleContext(), 13)
case 7:
return p.Precpred(p.GetParserRuleContext(), 12)
default:
panic("No predicate with index: " + fmt.Sprint(predIndex))
}
}
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