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# ifdef NDEBUG
# undef NDEBUG
# endif
# define LLAMA_API_INTERNAL
# include "ggml.h"
# include "llama.h"
# include "grammar-parser.h"
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# include "json-schema-to-grammar.h"
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# include "unicode.h"
# include <cassert>
# include <string>
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# include <vector>
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using json = nlohmann : : ordered_json ;
//#define INCLUDE_FAILING_TESTS 1
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static llama_grammar * build_grammar ( const std : : string & grammar_str ) {
auto parsed_grammar = grammar_parser : : parse ( grammar_str . c_str ( ) ) ;
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// Ensure we parsed correctly
assert ( ! parsed_grammar . rules . empty ( ) ) ;
// Ensure we have a root node
assert ( ! ( parsed_grammar . symbol_ids . find ( " root " ) = = parsed_grammar . symbol_ids . end ( ) ) ) ;
std : : vector < const llama_grammar_element * > grammar_rules ( parsed_grammar . c_rules ( ) ) ;
llama_grammar * grammar = llama_grammar_init (
grammar_rules . data ( ) , grammar_rules . size ( ) , parsed_grammar . symbol_ids . at ( " root " ) ) ;
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return grammar ;
}
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static bool test_build_grammar_fails ( const std : : string & grammar_str ) {
fprintf ( stderr , " ⚫ Testing failure for grammar: %s \n " , grammar_str . c_str ( ) ) ;
bool grammar_fails = false ;
try {
build_grammar ( grammar_str ) ;
fprintf ( stderr , " ❌ Expected build failure, but succeeded \n " ) ;
} catch ( const std : : exception & err ) {
grammar_fails = true ;
fprintf ( stdout , " ✅︎ \n " ) ;
}
return grammar_fails ;
}
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static bool match_string ( const std : : string & input , llama_grammar * grammar ) {
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auto decoded = decode_utf8 ( input , { } ) ;
const auto & code_points = decoded . first ;
for ( auto it = code_points . begin ( ) , end = code_points . end ( ) - 1 ; it ! = end ; + + it ) {
auto prev_stacks = grammar - > stacks ;
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llama_grammar_accept ( grammar - > rules , prev_stacks , * it , grammar - > stacks ) ;
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if ( grammar - > stacks . empty ( ) ) {
// no stacks means that the grammar failed to match at this point
return false ;
}
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}
for ( const auto & stack : grammar - > stacks ) {
if ( stack . empty ( ) ) {
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// An empty stack means that the grammar has been completed
return true ;
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}
}
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return false ;
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}
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static void test ( const std : : string & test_desc , const std : : string & grammar_str , const std : : vector < std : : string > & passing_strings , const std : : vector < std : : string > & failing_strings ) {
fprintf ( stderr , " ⚫ Testing %s \n %s \n " , test_desc . c_str ( ) , grammar_str . c_str ( ) ) ;
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fflush ( stderr ) ;
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auto grammar = build_grammar ( grammar_str ) ;
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// Save the original grammar stacks so that we can reset after every new string we want to test
auto original_stacks = grammar - > stacks ;
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fprintf ( stderr , " 🔵 Valid strings: \n " ) ;
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// Passing strings
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for ( const auto & test_string : passing_strings ) {
fprintf ( stderr , " \" %s \" " , test_string . c_str ( ) ) ;
fflush ( stderr ) ;
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bool matched = match_string ( test_string , grammar ) ;
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if ( ! matched ) {
fprintf ( stderr , " ❌ (failed to match) \n " ) ;
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// DEBUG: Write strings to files so that we can analyze more easily with gbnf-validator program to see exactly where things failed.
// DEBUG: Write the grammar_str to test-grammar-integration.grammar.gbnf
FILE * grammar_file = fopen ( " test-grammar-integration.grammar.gbnf " , " w " ) ;
if ( grammar_file ) {
fprintf ( grammar_file , " %s " , grammar_str . c_str ( ) ) ;
fclose ( grammar_file ) ;
}
// DEBUG: Write the test string to test-grammar-integration.string.txt
FILE * string_file = fopen ( " test-grammar-integration.string.txt " , " w " ) ;
if ( string_file ) {
fprintf ( string_file , " %s " , test_string . c_str ( ) ) ;
fclose ( string_file ) ;
}
fprintf ( stderr , " \n NOTE: Debug grammar file generated. To analyze this failure in detail, run the following command: ./llama-gbnf-validator test-grammar-integration.grammar.gbnf test-grammar-integration.string.txt \n \n " ) ;
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} else {
fprintf ( stdout , " ✅︎ \n " ) ;
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}
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assert ( matched ) ;
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// Reset the grammar stacks
grammar - > stacks = original_stacks ;
}
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fprintf ( stderr , " 🟠 Invalid strings: \n " ) ;
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// Failing strings
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for ( const auto & test_string : failing_strings ) {
fprintf ( stderr , " \" %s \" " , test_string . c_str ( ) ) ;
fflush ( stderr ) ;
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bool matched = match_string ( test_string , grammar ) ;
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if ( matched ) {
fprintf ( stderr , " ❌ (incorrectly matched) \n " ) ;
} else {
fprintf ( stdout , " ✅︎ \n " ) ;
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}
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assert ( ! matched ) ;
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// Reset the grammar stacks
grammar - > stacks = original_stacks ;
}
// Clean up allocated memory
llama_grammar_free ( grammar ) ;
}
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static void test_grammar ( const std : : string & test_desc , const std : : string & grammar_str , const std : : vector < std : : string > & passing_strings , const std : : vector < std : : string > & failing_strings ) {
test ( test_desc + " . Grammar: " + grammar_str , grammar_str , passing_strings , failing_strings ) ;
}
static void test_schema ( const std : : string & test_desc , const std : : string & schema_str , const std : : vector < std : : string > & passing_strings , const std : : vector < std : : string > & failing_strings ) {
test ( test_desc + " . Schema: " + schema_str , json_schema_to_grammar ( json : : parse ( schema_str ) ) , passing_strings , failing_strings ) ;
}
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static void test_simple_grammar ( ) {
// Test case for a simple grammar
test_grammar (
" simple grammar " ,
R " " " (
root : : = expr
expr : : = term ( " + " term ) *
term : : = number
number : : = [ 0 - 9 ] + ) " " " ,
// Passing strings
{
" 42 " ,
" 1+2+3+4+5 " ,
" 123+456 " ,
} ,
// Failing strings
{
" + " ,
" / 3 " ,
" 1+2+3+4+5+ " ,
" 12a45 " ,
}
) ;
}
static void test_complex_grammar ( ) {
// Test case for a more complex grammar, with both failure strings and success strings
test_grammar (
" medium complexity grammar " ,
// Grammar
R " " " (
root : : = expression
expression : : = term ws ( ( " + " | " - " ) ws term ) *
term : : = factor ws ( ( " * " | " / " ) ws factor ) *
factor : : = number | variable | " ( " expression " ) " | function - call
number : : = [ 0 - 9 ] +
variable : : = [ a - zA - Z_ ] [ a - zA - Z0 - 9 _ ] *
function - call : : = variable ws " ( " ( expression ( " , " ws expression ) * ) ? " ) "
ws : : = [ \ t \ n \ r ] ? ) " " " ,
// Passing strings
{
" 42 " ,
" 1*2*3*4*5 " ,
" x " ,
" x+10 " ,
" x1+y2 " ,
" (a+b)*(c-d) " ,
" func() " ,
" func(x,y+2) " ,
" a*(b+c)-d/e " ,
" f(g(x),h(y,z)) " ,
" x + 10 " ,
" x1 + y2 " ,
" (a + b) * (c - d) " ,
" func() " ,
" func(x, y + 2) " ,
" a * (b + c) - d / e " ,
" f(g(x), h(y, z)) " ,
" 123+456 " ,
" 123*456*789-123/456+789*123 " ,
" 123+456*789-123/456+789*123-456/789+123*456-789/123+456*789-123/456+789*123-456 "
} ,
// Failing strings
{
" + " ,
" / 3x " ,
" x + + y " ,
" a * / b " ,
" func(,) " ,
" func(x y) " ,
" (a + b " ,
" x + y) " ,
" a + b * (c - d " ,
" 42 + " ,
" x + " ,
" x + 10 + " ,
" (a + b) * (c - d " ,
" func( " ,
" func(x, y + 2 " ,
" a * (b + c) - d / " ,
" f(g(x), h(y, z) " ,
" 123+456*789-123/456+789*123-456/789+123*456-789/123+456*789-123/456+789*123-456/ " ,
}
) ;
}
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static void test_special_chars ( ) {
// A collection of tests to exercise special characters such as "."
test_grammar (
" special characters " ,
// Grammar
R " " " (
root : : = . . . " abc " . . .
) " " " ,
// Passing strings
{
" abcabcabc " ,
" aaaabcccc " ,
// NOTE: Also ensures that multi-byte characters still count as a single character
" 🔵🟠✅abc❌🟠🔵 "
} ,
// Failing strings
{
" aaabcccc " ,
" aaaaabcccc " ,
" aaaabccc " ,
" aaaabccccc " ,
" 🔵🟠✅❌abc❌✅🟠🔵 "
" 🔵🟠abc🟠🔵 "
}
) ;
}
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static void test_quantifiers ( ) {
// A collection of tests to exercise * + and ? quantifiers
test_grammar (
" * quantifier " ,
// Grammar
R " " " (root ::= " a " *) " " " ,
// Passing strings
{
" " ,
" a " ,
" aaaaa " ,
" aaaaaaaaaaaaaaaaaa " ,
" aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa "
} ,
// Failing strings
{
" b " ,
" ab " ,
" aab " ,
" ba " ,
" aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaab "
}
) ;
test_grammar (
" + quantifier " ,
// Grammar
R " " " (root ::= " a " +) " " " ,
// Passing strings
{
" a " ,
" aaaaa " ,
" aaaaaaaaaaaaaaaaaa " ,
" aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa "
} ,
// Failing strings
{
" " ,
" b " ,
" ab " ,
" aab " ,
" ba " ,
" aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaab "
}
) ;
test_grammar (
" ? quantifier " ,
// Grammar
R " " " (root ::= " a " ?) " " " ,
// Passing strings
{
" " ,
" a "
} ,
// Failing strings
{
" b " ,
" ab " ,
" aa " ,
" ba " ,
}
) ;
test_grammar (
" mixed quantifiers " ,
// Grammar
R " " " (
root : : = cons + vowel * cons ? ( vowel cons ) *
vowel : : = [ aeiouy ]
cons : : = [ bcdfghjklmnpqrstvwxyz ]
) " " " ,
// Passing strings
{
" yes " ,
" no " ,
" noyes " ,
" crwth " ,
" four " ,
" bryyyy " ,
} ,
// Failing strings
{
" yess " ,
" yesno " ,
" forty " ,
" catyyy " ,
}
) ;
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test_grammar (
" simple exact repetition " ,
// Grammar
R " " " (
root : : = [ ab ] { 4 }
) " " " ,
// Passing strings
{
" aaaa " ,
" bbbb " ,
" abab " ,
} ,
// Failing strings
{
" a " ,
" b " ,
" aaaaa " ,
}
) ;
test_grammar (
" simple min repetition " ,
// Grammar
R " " " (
root : : = [ ab ] { 4 , }
) " " " ,
// Passing strings
{
" aaaa " ,
" aaaaab " ,
" bbbb " ,
" ababab " ,
} ,
// Failing strings
{
" " ,
" aba " ,
}
) ;
test_grammar (
" simple max repetition " ,
// Grammar
R " " " (
root : : = [ ab ] { 0 , 4 }
) " " " ,
// Passing strings
{
" " ,
" a " ,
" aa " ,
" aaa " ,
" aaab " ,
} ,
// Failing strings
{
" aaaaa " ,
}
) ;
test_grammar (
" min / max repetition " ,
// Grammar
R " " " (
root : : = ( " 0x " [ A - F0 - 9 ] { 2 } " " ? ) { 3 , 5 }
) " " " ,
// Passing strings
{
" 0xFF 0x12 0xAB " ,
" 0xFF 0x12 0xAB 0x00 0x00 " ,
} ,
// Failing strings
{
" " ,
" 0xFF " ,
" 0xFF 0x12 " ,
" 0xFF 0x12 0xAB 0x00 0x00 0x00 " ,
}
) ;
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}
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static void test_failure_missing_root ( ) {
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fprintf ( stderr , " ⚫ Testing missing root node: \n " ) ;
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// Test case for a grammar that is missing a root rule
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const std : : string grammar_str = R " " " (
rot : : = expr
expr : : = term ( " + " term ) *
term : : = number
number : : = [ 0 - 9 ] + ) " " " ;
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grammar_parser : : parse_state parsed_grammar = grammar_parser : : parse ( grammar_str . c_str ( ) ) ;
// Ensure we parsed correctly
assert ( ! parsed_grammar . rules . empty ( ) ) ;
// Ensure we do NOT have a root node
assert ( parsed_grammar . symbol_ids . find ( " root " ) = = parsed_grammar . symbol_ids . end ( ) ) ;
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fprintf ( stderr , " ✅︎ Passed \n " ) ;
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}
static void test_failure_missing_reference ( ) {
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fprintf ( stderr , " ⚫ Testing missing reference node: \n " ) ;
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// Test case for a grammar that is missing a referenced rule
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const std : : string grammar_str =
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R " " " (root ::= expr
expr : : = term ( " + " term ) *
term : : = numero
number : : = [ 0 - 9 ] + ) " " " ;
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fprintf ( stderr , " Expected error: " ) ;
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grammar_parser : : parse_state parsed_grammar = grammar_parser : : parse ( grammar_str . c_str ( ) ) ;
// Ensure we did NOT parsed correctly
assert ( parsed_grammar . rules . empty ( ) ) ;
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fprintf ( stderr , " End of expected error. \n " ) ;
fprintf ( stderr , " ✅︎ Passed \n " ) ;
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}
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static void test_failure_left_recursion ( ) {
fprintf ( stderr , " ⚫ Testing left recursion detection: \n " ) ;
// Test simple left recursion detection
const std : : string simple_str = R " " " (root ::= " a " | root " a " ) " " " ;
assert ( test_build_grammar_fails ( simple_str ) ) ;
// Test more complicated left recursion detection
const std : : string medium_str = R " " " (
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root : : = asdf
asdf : : = " a " | asdf " a "
) " " " ;
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assert ( test_build_grammar_fails ( medium_str ) ) ;
// Test even more complicated left recursion detection
const std : : string hard_str = R " " " (
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root : : = asdf
asdf : : = " a " | foo " b "
foo : : = " c " | asdf " d " | " e " ) " " " ;
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assert ( test_build_grammar_fails ( hard_str ) ) ;
// Test yet even more complicated left recursion detection
const std : : string hardest_str = R " " " (
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root : : = asdf
asdf : : = " a " | foo " b "
foo : : = " c " | empty asdf " d " | " e "
empty : : = " blah " | ) " " " ;
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assert ( test_build_grammar_fails ( hardest_str ) ) ;
fprintf ( stderr , " ✅︎ Passed \n " ) ;
}
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static void test_json_schema ( ) {
// Note that this is similar to the regular grammar tests,
// but we convert each json schema to a grammar before parsing.
// Otherwise, this test structure is the same.
test_schema (
" empty schema (object) " ,
// Schema
R " " " (
{ }
) " " " ,
// Passing strings
{
" {} " ,
R " " " ({ " foo " : " bar " }) " " " ,
} ,
// Failing strings
{
" " ,
" [] " ,
" null " ,
" \" \" " ,
" true " ,
}
) ;
test_schema (
" exotic formats (list) " ,
// Schema
R " " " (
{
" items " : [
{ " format " : " date " } ,
{ " format " : " uuid " } ,
{ " format " : " time " } ,
{ " format " : " date-time " }
]
}
) " " " ,
// Passing strings
{
// "{}", // NOTE: This string passes for this schema on https://www.jsonschemavalidator.net/ -- should it?
// "[]", // NOTE: This string passes for this schema on https://www.jsonschemavalidator.net/ -- should it?
R " " " ([ " 2012 - 04 - 23 " , " 12345678 - 1234 - 1234 - 1234 - 1234567890 ab " , " 18 : 25 : 43.511 Z " , " 2012 - 04 - 23 T18 : 25 : 43.511 Z " ]) " " " ,
//R"""(["2012-04-23","12345678-1234-1234-1234-1234567890ab"])""", // NOTE: This string passes for this schema on https://www.jsonschemavalidator.net/ -- should it?
//R"""({"foo": "bar"})""", // NOTE: This string passes for this schema on https://www.jsonschemavalidator.net/ -- should it?
} ,
// Failing strings
{
R " " " ([ " foo " , " bar " ]) " " " ,
R " " " ([ " 12345678 - 1234 - 1234 - 1234 - 1234567890 ab " ]) " " " ,
}
) ;
test_schema (
" string " ,
// Schema
R " " " (
{
" type " : " string "
}
) " " " ,
// Passing strings
{
" \" foo \" " ,
" \" bar \" " ,
" \" \" " ,
} ,
// Failing strings
{
" {} " ,
" \" foo \" : \" bar \" " ,
}
) ;
test_schema (
" string w/ min length 1 " ,
// Schema
R " " " (
{
" type " : " string " ,
" minLength " : 1
}
) " " " ,
// Passing strings
{
" \" foo \" " ,
" \" bar \" " ,
} ,
// Failing strings
{
" \" \" " ,
" {} " ,
" \" foo \" : \" bar \" " ,
}
) ;
test_schema (
" string w/ min length 3 " ,
// Schema
R " " " (
{
" type " : " string " ,
" minLength " : 3
}
) " " " ,
// Passing strings
{
" \" foo \" " ,
" \" bar \" " ,
" \" foobar \" " ,
} ,
// Failing strings
{
" \" \" " ,
" \" f \" " ,
" \" fo \" " ,
}
) ;
test_schema (
" string w/ max length " ,
// Schema
R " " " (
{
" type " : " string " ,
" maxLength " : 3
}
) " " " ,
// Passing strings
{
" \" foo \" " ,
" \" bar \" " ,
" \" \" " ,
" \" f \" " ,
" \" fo \" " ,
} ,
// Failing strings
{
" \" foobar \" " ,
}
) ;
test_schema (
" string w/ min & max length " ,
// Schema
R " " " (
{
" type " : " string " ,
" minLength " : 1 ,
" maxLength " : 4
}
) " " " ,
// Passing strings
{
" \" foo \" " ,
" \" bar \" " ,
" \" f \" " ,
" \" barf \" " ,
} ,
// Failing strings
{
" \" \" " ,
" \" barfo \" " ,
" \" foobar \" " ,
}
) ;
test_schema (
" boolean " ,
// Schema
R " " " (
{
" type " : " boolean "
}
) " " " ,
// Passing strings
{
" true " ,
" false " ,
} ,
// Failing strings
{
" \" \" " ,
" \" true \" " ,
" True " ,
" FALSE " ,
}
) ;
test_schema (
" integer " ,
// Schema
R " " " (
{
" type " : " integer "
}
) " " " ,
// Passing strings
{
" 0 " ,
" 12345 " ,
" 1234567890123456 "
} ,
// Failing strings
{
" " ,
" 01 " ,
" 007 " ,
" 12345678901234567 "
}
) ;
test_schema (
" string const " ,
// Schema
R " " " (
{
" const " : " foo "
}
) " " " ,
// Passing strings
{
" \" foo \" " ,
} ,
// Failing strings
{
" foo " ,
" \" bar \" " ,
}
) ;
test_schema (
" non-string const " ,
// Schema
R " " " (
{
" const " : true
}
) " " " ,
// Passing strings
{
" true " ,
} ,
// Failing strings
{
" " ,
" foo " ,
" \" true \" " ,
}
) ;
test_schema (
" non-string const " ,
// Schema
R " " " (
{
" enum " : [ " red " , " amber " , " green " , null , 42 , [ " foo " ] ]
}
) " " " ,
// Passing strings
{
" \" red \" " ,
" null " ,
" 42 " ,
" [ \" foo \" ] " ,
} ,
// Failing strings
{
" " ,
" 420 " ,
" true " ,
" foo " ,
}
) ;
test_schema (
" min+max items " ,
// Schema
R " " " (
{
" items " : {
" type " : [ " number " , " integer " ]
} ,
" minItems " : 3 ,
" maxItems " : 5
}
) " " " ,
// Passing strings
{
" [1, 2, 3] " ,
" [1, 2, 3, 4] " ,
" [1, 2, 3, 4, 5] " ,
} ,
// Failing strings
{
" [1, 2] " ,
" [1, 2, 3, 4, 5, 6] " ,
" 1 "
}
) ;
// Properties (from: https://json-schema.org/understanding-json-schema/reference/object#properties)
test_schema (
" object properties " ,
// Schema
R " " " (
{
" type " : " object " ,
" properties " : {
" number " : { " type " : " number " } ,
" street_name " : { " type " : " string " } ,
" street_type " : { " enum " : [ " Street " , " Avenue " , " Boulevard " ] }
}
}
) " " " ,
// Passing strings
{
R " " " ({ " number " : 1600, " street_name " : " Pennsylvania " , " street_type " : " Avenue " }) " " " ,
// "By default, leaving out properties is valid"
R " " " ({ " street_name " : " Pennsylvania " }) " " " ,
R " " " ({ " number " : 1600, " street_name " : " Pennsylvania " }) " " " ,
// "By extension, even an empty object is valid"
R " " " ({}) " " " ,
// "By default, providing additional properties is valid"
# ifdef INCLUDE_FAILING_TESTS
// TODO: The following should pass, but currently FAILS. Additional properties should be permitted by default.
R " " " ({ " number " : 1600, " street_name " : " Pennsylvania " , " street_type " : " Avenue " , " direction " : " NW " }) " " " ,
// TODO: Spaces should be permitted around enum values, but currently they fail to pass.
R " " " ({ " number " : 1600, " street_name " : " Pennsylvania " , " street_type " : " Avenue " }) " " " ,
# endif
} ,
// Failing strings
{
// Change datatype from number to string
R " " " ({ " number " : " 1600 " , " street_name " : " Pennsylvania " , " street_type " : " Avenue " }) " " " ,
// Reorder properties
R " " " ({ " street_name " : " Pennsylvania " , " number " : 1600 }) " " " ,
// Reorder properties
R " " " ({ " number " : " 1600 " , " street_name " : " Pennsylvania " , " street_type " : " Avenue " }) " " " ,
}
) ;
// Properties (from: https://json-schema.org/understanding-json-schema/reference/object#properties)
test_schema (
" object properties, additionalProperties: true " ,
// Schema
R " " " (
{
" type " : " object " ,
" properties " : {
" number " : { " type " : " number " } ,
" street_name " : { " type " : " string " } ,
" street_type " : { " enum " : [ " Street " , " Avenue " , " Boulevard " ] }
} ,
" additionalProperties " : true
}
) " " " ,
// Passing strings
{
// "By extension, even an empty object is valid"
R " " " ({}) " " " ,
# ifdef INCLUDE_FAILING_TESTS
// TODO: Following line should pass and doesn't
R " " " ({ " number " :1600, " street_name " : " Pennsylvania " , " street_type " : " Avenue " }) " " " ,
// "By default, leaving out properties is valid"
// TODO: Following line should pass and doesn't
R " " " ({ " street_name " : " Pennsylvania " }) " " " ,
// TODO: Following line should pass and doesn't
R " " " ({ " number " : 1600, " street_name " : " Pennsylvania " }) " " " ,
// "By default, providing additional properties is valid"
// TODO: The following should pass, but currently FAILS. Additional properties should be permitted by default.
R " " " ({ " number " : 1600, " street_name " : " Pennsylvania " , " street_type " : " Avenue " , " direction " : " NW " }) " " " ,
// TODO: Spaces should be permitted around enum values, but currently they fail to pass.
R " " " ({ " number " : 1600, " street_name " : " Pennsylvania " , " street_type " : " Avenue " }) " " " ,
# endif
} ,
// Failing strings
{
// Change datatype from number to string
R " " " ({ " number " : " 1600 " , " street_name " : " Pennsylvania " , " street_type " : " Avenue " }) " " " ,
// Reorder properties
R " " " ({ " street_name " : " Pennsylvania " , " number " : 1600, " street_type " : " Avenue " }) " " " ,
}
) ;
// Additional properties: false
test_schema (
" required + optional props each in original order " ,
// Schema
R " " " (
{
" type " : " object " ,
" properties " : {
" number " : { " type " : " number " } ,
" street_name " : { " type " : " string " } ,
" street_type " : { " enum " : [ " Street " , " Avenue " , " Boulevard " ] }
} ,
" additionalProperties " : false
}
) " " " ,
// Passing strings
{
R " " " ({ " street_name " : " Pennsylvania " }) " " " ,
R " " " ({ " number " : 1600, " street_type " : " Avenue " }) " " " ,
R " " " ({ " number " : 1600, " street_name " : " Pennsylvania " }) " " " ,
R " " " ({ " number " : 1600, " street_name " : " Pennsylvania " , " street_type " : " Avenue " }) " " " ,
# ifdef INCLUDE_FAILING_TESTS
// TODO: Spaces should be permitted around enum values, but currently they fail to pass.
R " " " ({ " number " : 1600, " street_name " : " Pennsylvania " , " street_type " : " Avenue " }) " " " ,
# endif
} ,
// Failing strings
{
// Reorder properties
R " " " ({ " street_type " : " Avenue " , " number " : 1600 }) " " " ,
// Add "direction"
R " " " ({ " number " : 1600, " street_name " : " Pennsylvania " , " street_type " : " Avenue " , " direction " : " NW " }) " " " ,
}
) ;
test_schema (
" required + optional props each in original order " ,
// Schema
R " " " (
{
" properties " : {
" b " : { " type " : " string " } ,
" a " : { " type " : " string " } ,
" d " : { " type " : " string " } ,
" c " : { " type " : " string " }
} ,
" required " : [ " a " , " b " ] ,
" additionalProperties " : false
}
) " " " ,
// Passing strings
{
R " " " ({ " b " : " foo " , " a " : " bar " }) " " " ,
R " " " ({ " b " : " foo " , " a " : " bar " , " d " : " qux " }) " " " ,
R " " " ({ " b " : " foo " , " a " : " bar " , " d " : " qux " , " c " : " baz " }) " " " ,
} ,
// Failing strings
{
R " " " ({ " a " : " foo " , " b " : " bar " }) " " " ,
R " " " ({ " b " : " bar " }) " " " ,
R " " " ({ " a " : " foo " , " c " : " baz " }) " " " ,
R " " " ({ " a " : " foo " , " b " : " bar " , " c " : " baz " , " d " : " qux " }) " " " ,
}
) ;
// NOTE: Example from https://json-schema.org/learn/getting-started-step-by-step#define-required-properties
test_schema (
" required props " ,
// Schema
R " " " (
{
" $schema " : " https://json-schema.org/draft/2020-12/schema " ,
" $id " : " https://example.com/product.schema.json " ,
" title " : " Product " ,
" description " : " A product from Acme's catalog " ,
" type " : " object " ,
" properties " : {
" productId " : {
" description " : " The unique identifier for a product " ,
" type " : " integer "
} ,
" productName " : {
" description " : " Name of the product " ,
" type " : " string "
} ,
" price " : {
" description " : " The price of the product " ,
" type " : " number " ,
" exclusiveMinimum " : 0
} ,
" tags " : {
" description " : " Tags for the product " ,
" type " : " array " ,
" items " : {
" type " : " string "
} ,
" minItems " : 1 ,
" uniqueItems " : true
} ,
" dimensions " : {
" type " : " object " ,
" properties " : {
" length " : {
" type " : " number "
} ,
" width " : {
" type " : " number "
} ,
" height " : {
" type " : " number "
}
} ,
" required " : [ " length " , " width " , " height " ]
}
} ,
" required " : [ " productId " , " productName " , " price " ]
}
) " " " ,
// Passing strings
{
R " " " ({ " productId " : 1, " productName " : " A green door " , " price " : 12.50}) " " " ,
R " " " ({ " productId " : 1, " productName " : " A green door " , " price " : 12.50, " tags " : [ " home " , " green " ]}) " " " ,
R " " " ({ " productId " : 1, " productName " : " A green door " , " price " : 12.50, " tags " : [ " home " , " green " ], " dimensions " : { " length " : 785, " width " : 250.5, " height " : -0.359}}) " " " ,
} ,
// Failing strings
{
R " " " ({}) " " " , // Missing all required properties
R " " " ({ " productName " : " A green door " , " price " : 12.50, " productId " : 1}) " " " , // Out of order properties
// TODO: The following line should fail, but currently it passes. `exclusiveMinimum` is not supported, as it would likely be too difficult to implement.
// Perhaps special checks for minimum and maximum values of 0 could be added (since that's relatively easy to do with grammars), but anything else would likely be too complex.
// R"""({"productId": 1, "productName": "A green door", "price": -12.50})""",
R " " " ({ " productId " : 1, " productName " : " A green door " }) " " " , // Missing required property (price)
R " " " ({ " productName " : " A green door " , " price " : 12.50}) " " " , // Missing required property (productId)
R " " " ({ " productId " : 1, " productName " : " A green door " , " price " : 12.50, " tags " : []}) " " " , // tags is empty, but minItems is 1
R " " " ({ " productId " : 1, " productName " : " A green door " , " price " : 12.50, " dimensions " : { " length " : 785, " width " : 250.5, " height " : -0.359}, " tags " : [ " home " , " green " ]}) " " " , // Tags and dimensions are out of order
// TODO: The following line should fail, but currently it passes. `uniqueItems` is not supported, as it would likely be too difficult to implement.
// R"""({"productId": 1, "productName": "A green door", "price": 12.50, "tags": ["home", "green", "home"]})""",
}
) ;
}
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int main ( ) {
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fprintf ( stdout , " Running grammar integration tests... \n " ) ;
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test_simple_grammar ( ) ;
test_complex_grammar ( ) ;
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test_special_chars ( ) ;
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test_quantifiers ( ) ;
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test_failure_missing_root ( ) ;
test_failure_missing_reference ( ) ;
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test_failure_left_recursion ( ) ;
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test_json_schema ( ) ;
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fprintf ( stdout , " All tests passed. \n " ) ;
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return 0 ;
}