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ik_llama.cpp/common/json-schema-to-grammar.cpp
firecoperana e0596bf614
Autoparser - complete refactoring of parser architecture (#1376) 
* Autoparser - complete refactoring of parser architecture

Autoparser: add optional argument reshuffle capability

Autoparser: True streaming (#20177)

* Relax atomicity constraint for nicer, more pleasent, True Streaming parsing

* Whitespace

* Remove redundant atomics

Revert to OAI-compatible args (#20213)

* Revert to OAI-compatible args

* Apply workaround::func_args_not_string

Fix structured outputs (#20223)

* Fix structured outputs

* Update common/chat-auto-parser-generator.cpp

Co-authored-by: Aldehir Rojas <hello@alde.dev>

---------

Co-authored-by: Aldehir Rojas <hello@alde.dev>

Fix compile bug (#20203)

* Fix compile bug

* Update common/chat-auto-parser-helpers.cpp

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

---------

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>
# Conflicts:
#	common/chat-auto-parser-helpers.cpp

common : gracefully handle incomplete output (#20191)

* common : handle incomplete UTF-8 at end of input in PEG parser

* cont : if reached end prematurely, emit needs_more_input to propagate partial output

* cont: refactor peg parse context to add lenient flag

* cont : remove partial flag, keep lenient flag

PEG parser for LFM2 (#20251)

* PEG parser for LFM2

* Simplify using python_value()

common: map developer role to system (#20215)

* Map developer role to system
* Simplify

common: consolidate PEG string parsers (#20263)

* common : consolidate PEG string parsers
* cont : fix json_string_content()

examples : fix empty items in json_schema_to_grammar.py [no ci] (#19968)

* Fix logic for retrieving schema items in `json_schema_to_grammar.py`

If `schema['items']` is `{}` and `prefixItems not in schema', as `{}` is Falsy, the original code here will raise an error.

I think if `schema['items']` is `{}`, them items should just be `{}`

* Apply suggestion from @CISC

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

* Add tests for arrays with empty items

Add two unit tests to `tests/test-json-schema-to-grammar.cpp` that validate handling of arrays when 'items' is an empty schema and when 'prefixItems' is present alongside an empty 'items'. Both tests expect the same generated grammar, ensuring the JSON Schema->grammar conversion treats an empty 'items' schema (and the presence of 'prefixItems') correctly and covering this edge case.

---------

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

Reduce level of content parser warning message to avoid log spam on non-debug verbosity (#20347)

do not return if template parse failed

add arg to enable parallel tool call

common : fix incorrect uses of stoul (#20313)
# Conflicts:
#	common/arg.cpp
#	src/llama-grammar.cpp

examples : fix empty items in json_schema_to_grammar.py [no ci] (#19968)

* Fix logic for retrieving schema items in `json_schema_to_grammar.py`

If `schema['items']` is `{}` and `prefixItems not in schema', as `{}` is Falsy, the original code here will raise an error.

I think if `schema['items']` is `{}`, them items should just be `{}`

* Apply suggestion from @CISC

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

* Add tests for arrays with empty items

Add two unit tests to `tests/test-json-schema-to-grammar.cpp` that validate handling of arrays when 'items' is an empty schema and when 'prefixItems' is present alongside an empty 'items'. Both tests expect the same generated grammar, ensuring the JSON Schema->grammar conversion treats an empty 'items' schema (and the presence of 'prefixItems') correctly and covering this edge case.

---------

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

Add support for MiroThinker with new jinja template

common/parser: handle reasoning budget (#20297)

* v1

* Finished!

* Handlie cli

* Reasoning sampler

* Apply suggestions from code review

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

* Less explosive terminology :)

* Add utf-8 case and tests

* common : migrate reasoning budget sampler to common

* cont : clean up

* cont : expose state and allow passing as initial state

* cont : remove unused imports

* cont : update state machine doc string

---------

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>
Co-authored-by: Alde Rojas <hello@alde.dev>

common/parser: use nlohmann::ordered_json to preserve parameter order (#20385)

common/parser: add GigaChatV3/3.1 models support (#19931)

Co-authored-by: Mishusha <pmv26021975@gmail.com>

common/parser: gracefully handle undetected tool parser, print error message. (#20286)

fix: prevent nullptr dereference (#20552)

common : fix iterator::end() dereference (#20445)
# Conflicts:
#	common/regex-partial.cpp

jinja : add capability check for object args (#20612)

common/parser: add `--skip-chat-parsing` to force a pure content parser. (#20289)

* Add `--force-pure-content` to force a pure content parser.

* Update common/arg.cpp

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

common : rework gpt-oss parser (#20393)

* common : rework gpt-oss parser

* cont : fix gpt-oss tests

* cont : add structured output test

* cont : rename final to final_msg

common : fix gpt-oss content removal (#20745)

common/parser: add proper reasoning tag prefill reading (#20424)

* Implement proper prefill extraction

* Refactor cli parameters, update docs, move reasoning budget sampler part to common/reasoning-budget.cpp

* Update tools/server/server-task.cpp

* refactor: move grammars to variant, remove grammar_external, handle exception internally

* Make code less C++y

Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>

chat : handle tool calls with no required args in TAG_WITH_TAGGED format (#20764)

* chat : handle tool calls with no required args in TAG_WITH_TAGGED format

* Update tests/test-chat.cpp [no ci]

Co-authored-by: Aldehir Rojas <hello@alde.dev>

---------

Co-authored-by: Piotr Wilkin (ilintar) <piotr.wilkin@syndatis.com>
Co-authored-by: Aldehir Rojas <hello@alde.dev>

common/parser : fix out_of_range crash in throw path (#20424 regression) (#20777)

* chat : fix out_of_range crash in throw path (#20424 regression)

#20424 introduced effective_input = generation_prompt + input, but the
throw path uses input.substr(result.end) where result.end is a position
within effective_input. Every thinking model with a non-empty
generation_prompt crashes with std::out_of_range instead of the intended
error message.

Test crashes on unpatched master, passes with fix:

  cmake -B build -DLLAMA_BUILD_TESTS=ON -DLLAMA_BUILD_TOOLS=OFF
  cmake --build build --target test-chat
  ./build/bin/test-chat

* Update test-chat.cpp

* Update test-chat.cpp

* Update test-chat.cpp

---------

Co-authored-by: Piotr Wilkin (ilintar) <piotr.wilkin@syndatis.com>

jinja : fix heap OOB read in value equality comparison (#20782)

Address GHSA-q9j6-4hhc-rq9p and GHSA-2q4c-9gq5-5vfp.

The three-iterator overload of std::equal in value_array_t::equivalent()
and value_object_t::equivalent() reads past the end of the shorter
container when comparing arrays or objects of different lengths.

Use the four-iterator overload (C++14) which checks both range lengths.

Found-by: Pwno

common : fix typo in debug log ('extracft' -> 'extract') (#20807)

common/parser: fix nasty bug causing subtle corruption of generation prompt (#20825)

jinja : refactor token advancement (#20864)

* refactor token advancement

* exercise sub-expressions

common/autoparser : detect reasoning markers when enable_thinking changes system prompt (#20859)

common : replace wrap_for_generation with a prefix convenience function and fix gpt-oss (#20912)

jinja: fix macro with kwargs (#20960)

* jinja: fix macro with kwargs

* Apply suggestions from code review

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

* fix newline problem

---------

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

common : inhibit lazy grammar sampler while reasoning is active (#20970)

* common : inhibit grammar while reasoning budget is active

* cont : update force_pos in accept

* cont : fix tests

* cont : tweak should apply logic

* cont : return early not using grammar sampler

* Add tests

* cont : prevent backend sampling when reasoning budget enabled

* cont : fix typo

---------

Co-authored-by: Piotr Wilkin <piotr.wilkin@syndatis.com>
# Conflicts:
#	common/reasoning-budget.h
#	common/sampling.cpp
#	tools/cli/cli.cpp
#	tools/server/server-common.cpp
#	tools/server/server-task.cpp

common/parser: fix reasoning whitespace bugs + extra parser tests (#21085)

* fix whitespace reasoning issues + add reconstruction tests

* Proper fix

* fix Nemotron autoparser test expectations to include newline in marker

common : add reasoning_format = none support to gpt-oss (#21094)

common/json-schema: fix: handle non-capturing groups (?:...) in JSON schema pattern converter (#21124)

The regex-to-grammar converter in _visit_pattern() crashes with SIGSEGV
when a JSON schema "pattern" field contains a non-capturing group (?:...).

Root cause: when the parser sees '(' followed by '?', it pushes a warning
but does not advance past '?:'. The recursive transform() call then
interprets '?' as a quantifier and calls seq.back() on an empty vector,
causing undefined behavior.

This commonly occurs when serving OpenAI-compatible tool calls from
clients that include complex regex patterns in their JSON schemas (e.g.,
date validation patterns like ^(?:(?:\d\d[2468][048]|...)-02-29|...)$).

The fix:
- Skip '?:' after '(' to treat non-capturing groups as regular groups
- For unsupported syntax (?=, ?!, etc.), skip to matching ')' safely,
  handling escaped characters to avoid miscounting parenthesis depth
- Adjust the ')' unbalanced-parentheses check using direct char
  comparisons instead of substr
- Add test cases for non-capturing groups (C++ only, as the JS/Python
  implementations do not yet support this syntax)

common/parser: fix handling of tool definition with missing properties key (#21128)

jinja : handle empty expressions correctly (#20913)

* Reject empty computed member expressions before returning slices[0] from parse_member_expression_arguments().

* Treat empty computed member expressions with Jinja2 undefined semantics

Treat empty computed member expressions like `a[]` as undefined instead of
raising a parser error, to match Jinja2 behavior.

- return a noop expression for empty computed member arguments
- return undefined when a computed member key evaluates to undefined
- add Jinja tests covering `a[]|default('fallback')` and `a[] is undefined`

* Handle undefined computed member properties

Move undefined-property handling to the common member access path, and add a test covering `a[undefined] is undefined`.

* Use default undefined value in member access

Initialize val and then return it when property is undefined.

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

* empty statement parses to blank_expression instead of noop_statement

---------

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

common : gpt-oss handle builtin and unsolicited tool calls (#21213)

fix: tool call parsing for LFM2 and LFM2.5 models (#21242)

* fix: tool call parsing for LFM2 and LFM2.5 models'

* refactor: add test / break out lfm2 and lfm2.5 parsing logic
# Conflicts:
#	common/chat.cpp

Relax prefill parser to allow space. (#21240)

* Relax prefill parser to allow space.

* Move changes from prefix() to parser generation

* Only allow spaces if we're not having a pure content parser next

common : add commentary rules for gpt-oss-20b (#21286)

add reasoning budget

model, mtmd: fix gguf conversion for audio/vision mmproj (#21309)

* fix gguf conversion for audio/vision mmproj

* fix test
# Conflicts:
#	convert_hf_to_gguf.py
#	examples/eval-callback/eval-callback.cpp
#	examples/mtmd/CMakeLists.txt
#	examples/mtmd/clip-impl.h
#	examples/mtmd/mtmd.cpp
#	gguf-py/gguf/constants.py
#	gguf-py/gguf/gguf_writer.py
#	gguf-py/gguf/tensor_mapping.py
#	src/CMakeLists.txt
#	src/llama-arch.cpp
#	src/llama-arch.h
#	src/llama-model.cpp
#	src/llama-model.h
#	src/llama-vocab.cpp
#	src/models/models.h
#	tests/test-llama-archs.cpp
#	tools/mtmd/clip-graph.h
#	tools/mtmd/clip-model.h
#	tools/mtmd/clip.cpp
#	tools/mtmd/models/models.h

fix: gemma 4 template (#21326)

chat : avoid including json in chat.h (#21306)

jinja: coerce input for string-specific filters (#21370)

common : fix tool call type detection for nullable and enum schemas (#21327)

* common : fix tool call type detection for nullable and enum schemas

* common, tests : fix grammar delegation for nullable/enum schemas and add tests

Fix enum type inference to scan all enum values (not just index 0) so
schemas like {"enum": [0, "celsius"]} correctly detect string type.

Fix schema_delegates in peg-parser to handle nullable type arrays
(["string", "null"]) and typeless enum schemas in raw mode, allowing
the tagged parser to use raw text instead of JSON-formatted strings.

Add test cases for Qwen3-Coder (TAG_WITH_TAGGED format):
- nullable string ["string", "null"]
- nullable string with null first ["null", "string"]
- nullable integer ["integer", "null"]
- enum without explicit type key

common/parser: fix call ID detection (Mistral parser mostly) + atomicity for tag-json parsers (#21230)

* Fix call ID detection (Mistral parser mostly) + atomicity for tag-json parsers

* Rename

* Update common/chat-auto-parser-generator.cpp

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

---------

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

common : add gemma 4 specialized parser (#21418)

* common : add gemma4 dedicated parser

* cont : add '<|tool_response>' as eog

* cont : emit JSON from Gemma4 tool call AST

* cont : more fixes

* cont : refactor convert function

* cont : refine rules and mapping

* cont : add more tests

* cont : clean up

* cont : remove autoparser gemma4 implementation

* cont : more cleanup

* cont : rename gemma4.jinja to match the others

* cont : add custom template to support interleaved thinking

* cont : preserve reasoning in model turns

* cont : fix initializer error

* cont : fix unused vars

* cont : fix accidental static

* cont : fix specialized_template signature

* fix extra semicolon

* remove debug line and extra space [no ci]

fix reasoning budget

parser: fix MiniMax handling (#21573)

jinja : support ensure_ascii=true, string repetition and int/float self-filtering (#21623)

* feat: jinja engine improvements for reka-edge

Port three Jinja engine improvements needed for the reka-edge model:
1. Python-style string repetition ("ab" * 3 → "ababab")
2. ensure_ascii=true support for tojson filter (escapes non-ASCII to \uXXXX)
3. int() builtin on value_int_t (identity, needed for Reka Edge template)

* fix: escape invalid utf8 bytes when ensure_ascii=true

The json_ensure_ascii_preserving_format function does not correctly
handle an edge case where if UTF-8 parsing fails, it adds the non-ascii
character back to the output as a raw byte.

This commit fixes that by adding the unicode standard replacement
character \\ufffd to the output instead. This is the standard behavior
for various programming languages like Python, Rust, Go, etc.

* chore: address PR comments

1. Add todo comment for supporting string repetition for array/tuples
2. Add support for float identity operation
3. Move invalid ascii test case to test_fuzzing

* chore: accept suggestion for common/jinja/value.cpp

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

---------

Co-authored-by: Sigbjørn Skjæret <sigbjorn.skjaeret@scala.com>

common : simplify autoparser tagged parser rules (#21216)

* common : simplify autoparser tagged parser rules

* cont : remove upper limit on optional args

* cont : revert changes to parsing at the end

* cont : undo arbitrary ordering of optional args

* cont : fix uninitialized required parameters

* revert to simplify merge

* re-apply patches

* restore flexible optional arg ordering tests

common : fix ambiguous grammar rule in gemma4 (#21661)

* common : fix ambiguous grammar rule in gemma4

* cont : fix missing comma...

common : enable reasoning budget sampler for gemma4 (#21697)

* fix: enable reasoning budget sampler for gemma4

Add thinking_start_tag and thinking_end_tag to
common_chat_params_init_gemma4(). Without these, the reasoning
budget sampler never activates for gemma4.

Make the newline after "thought" optional in the PEG parser to
handle budget=0 (sampler forces end tag before the newline).

Add test case for empty thinking block.

Fixes #21487

* use p.space() instead of p.optional(p.literal("\n")) in gemma4 thought parser

common : better align to the updated official gemma4 template (#21704)

fix: Fix broken structured output when using $refs in json_schema (#21699)

chat: dedicated DeepSeek v3.2 parser + "official" template (#21785)

Hide render_message_to_json warning

common/gemma4 : handle parsing edge cases (#21760)

common: skip reasoning budget sampler when no budget is requested (#21870)

* common: skip reasoning budget sampler when no budget is requested

After I added thinking_start_tag / thinking_end_tag for gemma4 in #21697, the reasoning budget sampler gets unconditionally created even when no budget is configured (the default -1). The same applies to kimi_k2, lfm2, lfm2_5, and ministral_3 which also set these tags. The budget gets converted to INT_MAX, so the sampler never actually forces any tokens but still runs per-token checks (start tag matching in IDLE state, token-to-piece conversion + UTF-8 checks in COUNTING state).

More importantly, the mere existence of the sampler (non-null rbudget) disables backend sampling. Backend sampling lets the GPU select tokens directly, avoiding a full logits transfer from GPU to CPU every token. This could explain the 30% speed regression reported in #21784 (98 t/s to 70 t/s on Vulkan).

So I added a reasoning_budget_tokens >= 0 check to the sampler creation condition. When the budget is unlimited, the sampler is not created, backend sampling stays enabled, and no per-token overhead is added. When a budget is explicitly set (0, 128, 1024, etc.), the sampler is created and works as before.

* common: preserve rbudget when grammar is lazy

Following up on the review feedback on #21870: keep the reasoning budget sampler when grammar_lazy is true, so the thinking-block grammar suppression from #20970 still works when tools are in use. This way, we only skip the sampler when both no budget is set AND grammar is not lazy.

autoparser: support case of JSON_NATIVE with per-call markers (test case: Reka-Edge) (#21892)

* fix grammar

* fix add sampled token

---------

Co-authored-by: Piotr Wilkin (ilintar) <piotr.wilkin@syndatis.com>
Co-authored-by: firecoperana <firecoperana>
2026-04-22 10:04:13 +02:00

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#include "json-schema-to-grammar.h"
#include "common.h"
#include <nlohmann/json.hpp>
#include <algorithm>
#include <map>
#include <regex>
#include <sstream>
#include <string>
#include <unordered_map>
#include <unordered_set>
#include <vector>
using json = nlohmann::ordered_json;
static std::string build_repetition(const std::string & item_rule, int min_items, int max_items, const std::string & separator_rule = "") {
auto has_max = max_items != std::numeric_limits<int>::max();
if (max_items == 0) {
return "";
}
if (min_items == 0 && max_items == 1) {
return item_rule + "?";
}
if (separator_rule.empty()) {
if (min_items == 1 && !has_max) {
return item_rule + "+";
}
if (min_items == 0 && !has_max) {
return item_rule + "*";
}
return item_rule + "{" + std::to_string(min_items) + "," + (has_max ? std::to_string(max_items) : "") + "}";
}
auto result = item_rule + " " + build_repetition("(" + separator_rule + " " + item_rule + ")", min_items == 0 ? 0 : min_items - 1, has_max ? max_items - 1 : max_items);
if (min_items == 0) {
result = "(" + result + ")?";
}
return result;
}
static void build_min_max_int(int64_t min_value, int64_t max_value, std::stringstream & out, int decimals_left = 16, bool top_level = true) {
auto has_min = min_value != std::numeric_limits<int64_t>::min();
auto has_max = max_value != std::numeric_limits<int64_t>::max();
auto digit_range = [&](char from, char to) {
out << "[";
if (from == to) {
out << from;
} else {
out << from << "-" << to;
}
out << "]";
};
auto more_digits = [&](int min_digits, int max_digits) {
out << "[0-9]";
if (min_digits == max_digits && min_digits == 1) {
return;
}
out << "{";
out << min_digits;
if (max_digits != min_digits) {
out << ",";
if (max_digits != std::numeric_limits<int>::max()) {
out << max_digits;
}
}
out << "}";
};
std::function<void(const std::string_view &, const std::string_view &)> uniform_range =
[&](const std::string_view & from, const std::string_view & to) {
size_t i = 0;
while (i < from.length() && i < to.length() && from[i] == to[i]) {
i++;
}
if (i > 0) {
out << "\"" << from.substr(0, i) << "\"";
}
if (i < from.length() && i < to.length()) {
if (i > 0) {
out << " ";
}
auto sub_len = from.length() - i - 1;
if (sub_len > 0) {
auto from_sub = from.substr(i + 1);
auto to_sub = to.substr(i + 1);
auto sub_zeros = string_repeat("0", sub_len);
auto sub_nines = string_repeat("9", sub_len);
auto to_reached = false;
out << "(";
if (from_sub == sub_zeros) {
digit_range(from[i], to[i] - 1);
out << " ";
more_digits(sub_len, sub_len);
} else {
out << "[" << from[i] << "] ";
out << "(";
uniform_range(from_sub, sub_nines);
out << ")";
if (from[i] < to[i] - 1) {
out << " | ";
if (to_sub == sub_nines) {
digit_range(from[i] + 1, to[i]);
to_reached = true;
} else {
digit_range(from[i] + 1, to[i] - 1);
}
out << " ";
more_digits(sub_len, sub_len);
}
}
if (!to_reached) {
out << " | ";
digit_range(to[i], to[i]);
out << " ";
uniform_range(sub_zeros, to_sub);
}
out << ")";
} else {
out << "[" << from[i] << "-" << to[i] << "]";
}
}
};
if (has_min && has_max) {
if (min_value < 0 && max_value < 0) {
out << "\"-\" (";
build_min_max_int(-max_value, -min_value, out, decimals_left, /* top_level= */ true);
out << ")";
return;
}
if (min_value < 0) {
out << "\"-\" (";
build_min_max_int(0, -min_value, out, decimals_left, /* top_level= */ true);
out << ") | ";
min_value = 0;
}
auto min_s = std::to_string(min_value);
auto max_s = std::to_string(max_value);
auto min_digits = min_s.length();
auto max_digits = max_s.length();
for (auto digits = min_digits; digits < max_digits; digits++) {
uniform_range(min_s, string_repeat("9", digits));
min_s = "1" + string_repeat("0", digits);
out << " | ";
}
uniform_range(min_s, max_s);
return;
}
auto less_decimals = std::max(decimals_left - 1, 1);
if (has_min) {
if (min_value < 0) {
out << "\"-\" (";
build_min_max_int(std::numeric_limits<int64_t>::min(), -min_value, out, decimals_left, /* top_level= */ false);
out << ") | [0] | [1-9] ";
more_digits(0, decimals_left - 1);
} else if (min_value == 0) {
if (top_level) {
out << "[0] | [1-9] ";
more_digits(0, less_decimals);
} else {
more_digits(1, decimals_left);
}
} else if (min_value <= 9) {
char c = '0' + min_value;
auto range_start = top_level ? '1' : '0';
if (c > range_start) {
digit_range(range_start, c - 1);
out << " ";
more_digits(1, less_decimals);
out << " | ";
}
digit_range(c, '9');
out << " ";
more_digits(0, less_decimals);
} else {
auto min_s = std::to_string(min_value);
auto len = min_s.length();
auto c = min_s[0];
if (c > '1') {
digit_range(top_level ? '1' : '0', c - 1);
out << " ";
more_digits(len, less_decimals);
out << " | ";
}
digit_range(c, c);
out << " (";
build_min_max_int(std::stoll(min_s.substr(1)), std::numeric_limits<int64_t>::max(), out, less_decimals, /* top_level= */ false);
out << ")";
if (c < '9') {
out << " | ";
digit_range(c + 1, '9');
out << " ";
more_digits(len - 1, less_decimals);
}
}
return;
}
if (has_max) {
if (max_value >= 0) {
if (top_level) {
out << "\"-\" [1-9] ";
more_digits(0, less_decimals);
out << " | ";
}
build_min_max_int(0, max_value, out, decimals_left, /* top_level= */ true);
} else {
out << "\"-\" (";
build_min_max_int(-max_value, std::numeric_limits<int64_t>::max(), out, decimals_left, /* top_level= */ false);
out << ")";
}
return;
}
throw std::runtime_error("At least one of min_value or max_value must be set");
}
const std::string SPACE_RULE = "| \" \" | \"\\n\"{1,2} [ \\t]{0,20}";
struct BuiltinRule {
std::string content;
std::vector<std::string> deps;
};
static std::unordered_map<std::string, BuiltinRule> PRIMITIVE_RULES = {
{"boolean", {"(\"true\" | \"false\") space", {}}},
{"decimal-part", {"[0-9]{1,16}", {}}},
{"integral-part", {"[0] | [1-9] [0-9]{0,15}", {}}},
{"number", {"(\"-\"? integral-part) (\".\" decimal-part)? ([eE] [-+]? integral-part)? space", {"integral-part", "decimal-part"}}},
{"integer", {"(\"-\"? integral-part) space", {"integral-part"}}},
{"value", {"object | array | string | number | boolean | null", {"object", "array", "string", "number", "boolean", "null"}}},
{"object", {"\"{\" space ( string \":\" space value (\",\" space string \":\" space value)* )? \"}\" space", {"string", "value"}}},
{"array", {"\"[\" space ( value (\",\" space value)* )? \"]\" space", {"value"}}},
{"uuid", {"\"\\\"\" [0-9a-fA-F]{8} \"-\" [0-9a-fA-F]{4} \"-\" [0-9a-fA-F]{4} \"-\" [0-9a-fA-F]{4} \"-\" [0-9a-fA-F]{12} \"\\\"\" space", {}}},
{"char", {"[^\"\\\\\\x7F\\x00-\\x1F] | [\\\\] ([\"\\\\bfnrt] | \"u\" [0-9a-fA-F]{4})", {}}},
{"string", {"\"\\\"\" char* \"\\\"\" space", {"char"}}},
{"null", {"\"null\" space", {}}},
};
static std::unordered_map<std::string, BuiltinRule> STRING_FORMAT_RULES = {
{"date", {"[0-9]{4} \"-\" ( \"0\" [1-9] | \"1\" [0-2] ) \"-\" ( \"0\" [1-9] | [1-2] [0-9] | \"3\" [0-1] )", {}}},
{"time", {"([01] [0-9] | \"2\" [0-3]) \":\" [0-5] [0-9] \":\" [0-5] [0-9] ( \".\" [0-9]{3} )? ( \"Z\" | ( \"+\" | \"-\" ) ( [01] [0-9] | \"2\" [0-3] ) \":\" [0-5] [0-9] )", {}}},
{"date-time", {"date \"T\" time", {"date", "time"}}},
{"date-string", {"\"\\\"\" date \"\\\"\" space", {"date"}}},
{"time-string", {"\"\\\"\" time \"\\\"\" space", {"time"}}},
{"date-time-string", {"\"\\\"\" date-time \"\\\"\" space", {"date-time"}}}
};
static bool is_reserved_name(const std::string & name) {
static const std::unordered_set<std::string> RESERVED_NAMES = [] {
std::unordered_set<std::string> s;
s.insert("root");
for (const auto & p : PRIMITIVE_RULES) {
s.insert(p.first);
}
for (const auto & p : STRING_FORMAT_RULES) {
s.insert(p.first);
}
return s;
}();
return RESERVED_NAMES.find(name) != RESERVED_NAMES.end();
}
static std::regex INVALID_RULE_CHARS_RE("[^a-zA-Z0-9-]+");
static std::regex GRAMMAR_LITERAL_ESCAPE_RE("[\r\n\"\\\\]");
static std::regex GRAMMAR_RANGE_LITERAL_ESCAPE_RE("[\r\n\"\\]\\-\\\\]");
static std::unordered_map<char, std::string> GRAMMAR_LITERAL_ESCAPES = {
{'\r', "\\r"}, {'\n', "\\n"}, {'"', "\\\""}, {'-', "\\-"}, {']', "\\]"}, {'\\', "\\\\"}
};
static std::unordered_set<char> NON_LITERAL_SET = {'|', '.', '(', ')', '[', ']', '{', '}', '*', '+', '?'};
static std::unordered_set<char> ESCAPED_IN_REGEXPS_BUT_NOT_IN_LITERALS = {'^', '$', '.', '[', ']', '(', ')', '|', '{', '}', '*', '+', '?'};
static std::string replacePattern(const std::string & input, const std::regex & regex, const std::function<std::string(const std::smatch &)> & replacement) {
std::smatch match;
std::string result;
std::string::const_iterator searchStart(input.cbegin());
std::string::const_iterator searchEnd(input.cend());
while (std::regex_search(searchStart, searchEnd, match, regex)) {
result.append(searchStart, searchStart + match.position());
result.append(replacement(match));
searchStart = match.suffix().first;
}
result.append(searchStart, searchEnd);
return result;
}
static std::string format_literal(const std::string & literal) {
std::string escaped = replacePattern(literal, GRAMMAR_LITERAL_ESCAPE_RE, [&](const std::smatch & match) {
char c = match.str()[0];
return GRAMMAR_LITERAL_ESCAPES.at(c);
});
return "\"" + escaped + "\"";
}
std::string gbnf_format_literal(const std::string & literal) { return format_literal(literal); }
class common_schema_converter {
private:
friend class common_schema_info;
friend std::string build_grammar(const std::function<void(const common_grammar_builder &)> & cb, const common_grammar_options & options);
std::function<json(const std::string &)> _fetch_json;
bool _dotall;
std::map<std::string, std::string> _rules;
std::unordered_map<std::string, json> _refs;
std::unordered_set<std::string> _refs_being_resolved;
std::vector<std::string> _errors;
std::vector<std::string> _warnings;
std::string _add_rule(const std::string & name, const std::string & rule) {
std::string esc_name = regex_replace(name, INVALID_RULE_CHARS_RE, "-");
if (_rules.find(esc_name) == _rules.end() || _rules[esc_name] == rule) {
_rules[esc_name] = rule;
return esc_name;
}
int i = 0;
while (_rules.find(esc_name + std::to_string(i)) != _rules.end() && _rules[esc_name + std::to_string(i)] != rule) {
i++;
}
std::string key = esc_name + std::to_string(i);
_rules[key] = rule;
return key;
}
std::string _generate_union_rule(const std::string & name, const std::vector<json> & alt_schemas) {
std::vector<std::string> rules;
rules.reserve(alt_schemas.size());
for (size_t i = 0; i < alt_schemas.size(); i++) {
rules.push_back(visit(alt_schemas[i], name + (name.empty() ? "alternative-" : "-") + std::to_string(i)));
}
return string_join(rules, " | ");
}
std::string _visit_pattern(const std::string & pattern, const std::string & name) {
if (!(pattern.front() == '^' && pattern.back() == '$')) {
_errors.push_back("Pattern must start with '^' and end with '$'");
return "";
}
std::string sub_pattern = pattern.substr(1, pattern.length() - 2);
std::unordered_map<std::string, std::string> sub_rule_ids;
size_t i = 0;
size_t length = sub_pattern.length();
using literal_or_rule = std::pair<std::string, bool>;
auto to_rule = [&](const literal_or_rule & ls) {
auto is_literal = ls.second;
auto s = ls.first;
return is_literal ? "\"" + s + "\"" : s;
};
std::function<literal_or_rule()> transform = [&]() -> literal_or_rule {
size_t start = i;
std::vector<literal_or_rule> seq;
auto get_dot = [&]() {
std::string rule;
if (_dotall) {
rule = "[\\U00000000-\\U0010FFFF]";
} else {
rule = "[^\\x0A\\x0D]";
}
return _add_rule("dot", rule);
};
// Joins the sequence, merging consecutive literals together.
auto join_seq = [&]() {
std::vector<literal_or_rule> ret;
std::string literal;
auto flush_literal = [&]() {
if (literal.empty()) {
return false;
}
ret.emplace_back(literal, true);
literal.clear();
return true;
};
for (const auto & item : seq) {
auto is_literal = item.second;
if (is_literal) {
literal += item.first;
} else {
flush_literal();
ret.push_back(item);
}
}
flush_literal();
std::vector<std::string> results;
results.reserve(ret.size());
for (const auto & item : ret) {
results.push_back(to_rule(item));
}
return std::make_pair(string_join(results, " "), false);
};
while (i < length) {
char c = sub_pattern[i];
if (c == '.') {
seq.emplace_back(get_dot(), false);
i++;
} else if (c == '(') {
i++;
if (i < length && sub_pattern[i] == '?') {
if (i + 1 < length && sub_pattern[i + 1] == ':') {
i += 2; // skip "?:" for non-capturing group, treat as regular group
} else {
// lookahead/lookbehind (?=, ?!, ?<=, ?<!) - not supported
_warnings.push_back("Unsupported pattern syntax");
// skip to matching ')' to avoid UB on empty seq
int depth = 1;
while (i < length && depth > 0) {
if (sub_pattern[i] == '\\' && i + 1 < length) {
i += 2; // skip escaped character
} else {
if (sub_pattern[i] == '(') depth++;
else if (sub_pattern[i] == ')') depth--;
i++;
}
}
continue;
}
}
seq.emplace_back("(" + to_rule(transform()) + ")", false);
} else if (c == ')') {
i++;
if (start > 0 && sub_pattern[start - 1] != '(' && (start < 2 || sub_pattern[start - 2] != '?' || sub_pattern[start - 1] != ':')) {
_errors.push_back("Unbalanced parentheses");
}
return join_seq();
} else if (c == '[') {
std::string square_brackets = std::string(1, c);
i++;
while (i < length && sub_pattern[i] != ']') {
if (sub_pattern[i] == '\\') {
square_brackets += sub_pattern.substr(i, 2);
i += 2;
} else {
square_brackets += sub_pattern[i];
i++;
}
}
if (i >= length) {
_errors.push_back("Unbalanced square brackets");
}
square_brackets += ']';
i++;
seq.emplace_back(square_brackets, false);
} else if (c == '|') {
seq.emplace_back("|", false);
i++;
} else if (c == '*' || c == '+' || c == '?') {
seq.back() = std::make_pair(to_rule(seq.back()) + c, false);
i++;
} else if (c == '{') {
std::string curly_brackets = std::string(1, c);
i++;
while (i < length && sub_pattern[i] != '}') {
curly_brackets += sub_pattern[i];
i++;
}
if (i >= length) {
_errors.push_back("Unbalanced curly brackets");
}
curly_brackets += '}';
i++;
auto nums = string_split(curly_brackets.substr(1, curly_brackets.length() - 2), ",");
int min_times = 0;
int max_times = std::numeric_limits<int>::max();
try {
if (nums.size() == 1) {
min_times = max_times = std::stoi(nums[0]);
} else if (nums.size() != 2) {
_errors.push_back("Wrong number of values in curly brackets");
} else {
if (!nums[0].empty()) {
min_times = std::stoi(nums[0]);
}
if (!nums[1].empty()) {
max_times = std::stoi(nums[1]);
}
}
} catch (const std::invalid_argument & e) {
_errors.push_back("Invalid number in curly brackets");
return std::make_pair("", false);
}
auto &last = seq.back();
auto &sub = last.first;
auto sub_is_literal = last.second;
if (!sub_is_literal) {
std::string & sub_id = sub_rule_ids[sub];
if (sub_id.empty()) {
sub_id = _add_rule(name + "-" + std::to_string(sub_rule_ids.size()), sub);
}
sub = sub_id;
}
seq.back().first = build_repetition(
sub_is_literal ? "\"" + sub + "\"" : sub,
min_times,
max_times,
""
);
seq.back().second = false;
} else {
std::string literal;
auto is_non_literal = [&](char c) {
return NON_LITERAL_SET.find(c) != NON_LITERAL_SET.end();
};
while (i < length) {
if (sub_pattern[i] == '\\' && i < length - 1) {
char next = sub_pattern[i + 1];
if (ESCAPED_IN_REGEXPS_BUT_NOT_IN_LITERALS.find(next) != ESCAPED_IN_REGEXPS_BUT_NOT_IN_LITERALS.end()) {
i++;
literal += sub_pattern[i];
i++;
} else {
literal += sub_pattern.substr(i, 2);
i += 2;
}
} else if (sub_pattern[i] == '"') {
literal += "\\\"";
i++;
} else if (!is_non_literal(sub_pattern[i]) &&
(i == length - 1 || literal.empty() || sub_pattern[i + 1] == '.' || !is_non_literal(sub_pattern[i + 1]))) {
literal += sub_pattern[i];
i++;
} else {
break;
}
}
if (!literal.empty()) {
seq.emplace_back(literal, true);
}
}
}
return join_seq();
};
return _add_rule(name, "\"\\\"\" (" + to_rule(transform()) + ") \"\\\"\" space");
}
/*
Returns a rule that matches a JSON string that is none of the provided strings
not_strings({"a"})
-> ["] ( [a] char+ | [^"a] char* )? ["] space
not_strings({"and", "also"})
-> ["] ( [a] ([l] ([s] ([o] char+ | [^"o] char*) | [^"s] char*) | [n] ([d] char+ | [^"d] char*) | [^"ln] char*) | [^"a] char* )? ["] space
*/
std::string _not_strings(const std::vector<std::string> & strings) {
struct TrieNode {
std::map<char, TrieNode> children;
bool is_end_of_string;
TrieNode() : is_end_of_string(false) {}
void insert(const std::string & string) {
auto *node = this;
for (char c : string) {
node = &node->children[c];
}
node->is_end_of_string = true;
}
};
TrieNode trie;
for (const auto & s : strings) {
trie.insert(s);
}
std::string char_rule = _add_primitive("char", PRIMITIVE_RULES.at("char"));
std::ostringstream out;
out << "[\"] ( ";
std::function<void(const TrieNode &)> visit = [&](const TrieNode & node) {
std::ostringstream rejects;
auto first = true;
for (const auto & kv : node.children) {
rejects << kv.first;
if (first) {
first = false;
} else {
out << " | ";
}
out << "[" << kv.first << "]";
if (!kv.second.children.empty()) {
out << " (";
visit(kv.second);
out << ")";
} else if (kv.second.is_end_of_string) {
out << " " << char_rule << "+";
}
}
if (!node.children.empty()) {
if (!first) {
out << " | ";
}
out << "[^\"" << rejects.str() << "] " << char_rule << "*";
}
};
visit(trie);
out << " )";
if (!trie.is_end_of_string) {
out << "?";
}
out << " [\"] space";
return out.str();
}
std::string _resolve_ref(const std::string & ref) {
auto it = ref.find('#');
std::string ref_fragment = it != std::string::npos ? ref.substr(it + 1) : ref;
static const std::regex nonalphanumeric_regex(R"([^a-zA-Z0-9-]+)");
std::string ref_name = "ref" + std::regex_replace(ref_fragment, nonalphanumeric_regex, "-");
if (_rules.find(ref_name) == _rules.end() && _refs_being_resolved.find(ref) == _refs_being_resolved.end()) {
_refs_being_resolved.insert(ref);
json resolved = _refs[ref];
ref_name = visit(resolved, ref_name);
_refs_being_resolved.erase(ref);
}
return ref_name;
}
std::string _build_object_rule(
const std::vector<std::pair<std::string, json>> & properties,
const std::unordered_set<std::string> & required,
const std::string & name,
const json & additional_properties)
{
std::vector<std::string> required_props;
std::vector<std::string> optional_props;
std::unordered_map<std::string, std::string> prop_kv_rule_names;
std::vector<std::string> prop_names;
for (const auto & kv : properties) {
const auto &prop_name = kv.first;
const auto &prop_schema = kv.second;
std::string prop_rule_name = visit(prop_schema, name + (name.empty() ? "" : "-") + prop_name);
prop_kv_rule_names[prop_name] = _add_rule(
name + (name.empty() ? "" : "-") + prop_name + "-kv",
format_literal(json(prop_name).dump()) + " space \":\" space " + prop_rule_name
);
if (required.find(prop_name) != required.end()) {
required_props.push_back(prop_name);
} else {
optional_props.push_back(prop_name);
}
prop_names.push_back(prop_name);
}
if ((additional_properties.is_boolean() && additional_properties.get<bool>()) || additional_properties.is_object()) {
std::string sub_name = name + (name.empty() ? "" : "-") + "additional";
std::string value_rule =
additional_properties.is_object() ? visit(additional_properties, sub_name + "-value")
: _add_primitive("value", PRIMITIVE_RULES.at("value"));
auto key_rule =
prop_names.empty() ? _add_primitive("string", PRIMITIVE_RULES.at("string"))
: _add_rule(sub_name + "-k", _not_strings(prop_names));
std::string kv_rule = _add_rule(sub_name + "-kv", key_rule + " \":\" space " + value_rule);
prop_kv_rule_names["*"] = kv_rule;
optional_props.push_back("*");
}
std::string rule = "\"{\" space ";
for (size_t i = 0; i < required_props.size(); i++) {
if (i > 0) {
rule += " \",\" space ";
}
rule += prop_kv_rule_names[required_props[i]];
}
if (!optional_props.empty()) {
rule += " (";
if (!required_props.empty()) {
rule += " \",\" space ( ";
}
std::function<std::string(const std::vector<std::string> &, bool)> get_recursive_refs = [&](const std::vector<std::string> & ks, bool first_is_optional) {
std::string res;
if (ks.empty()) {
return res;
}
const std::string& k = ks[0];
std::string kv_rule_name = prop_kv_rule_names[k];
std::string comma_ref = "( \",\" space " + kv_rule_name + " )";
if (first_is_optional) {
res = comma_ref + (k == "*" ? "*" : "?");
} else {
res = kv_rule_name + (k == "*" ? " " + comma_ref + "*" : "");
}
if (ks.size() > 1) {
res += " " + _add_rule(
name + (name.empty() ? "" : "-") + k + "-rest",
get_recursive_refs(std::vector<std::string>(ks.begin() + 1, ks.end()), true)
);
}
return res;
};
for (size_t i = 0; i < optional_props.size(); i++) {
if (i > 0) {
rule += " | ";
}
rule += get_recursive_refs(std::vector<std::string>(optional_props.begin() + i, optional_props.end()), false);
}
if (!required_props.empty()) {
rule += " )";
}
rule += " )?";
}
rule += " \"}\" space";
return rule;
}
std::string _add_primitive(const std::string & name, const BuiltinRule & rule) {
auto n = _add_rule(name, rule.content);
for (const auto & dep : rule.deps) {
BuiltinRule dep_rule;
auto it = PRIMITIVE_RULES.find(dep);
if (it == PRIMITIVE_RULES.end()) {
it = STRING_FORMAT_RULES.find(dep);
if (it == STRING_FORMAT_RULES.end()) {
_errors.push_back("Rule " + dep + " not known");
continue;
}
}
if (_rules.find(dep) == _rules.end()) {
_add_primitive(dep, it->second);
}
}
return n;
}
public:
common_schema_converter(
const std::function<json(const std::string &)> & fetch_json,
bool dotall)
: _fetch_json(fetch_json), _dotall(dotall)
{
_rules["space"] = SPACE_RULE;
}
void resolve_refs(json & schema, const std::string & url) {
/*
* Resolves all $ref fields in the given schema, fetching any remote schemas,
* replacing each $ref with absolute reference URL and populates _refs with the
* respective referenced (sub)schema dictionaries.
*/
std::function<void(json &)> visit_refs = [&](json & n) {
if (n.is_array()) {
for (auto & x : n) {
visit_refs(x);
}
} else if (n.is_object()) {
if (n.contains("$ref")) {
std::string ref = n["$ref"];
if (_refs.find(ref) == _refs.end()) {
json target;
if (ref.find("https://") == 0) {
std::string base_url = ref.substr(0, ref.find('#'));
auto it = _refs.find(base_url);
if (it != _refs.end()) {
target = it->second;
} else {
// Fetch the referenced schema and resolve its refs
auto referenced = _fetch_json(ref);
resolve_refs(referenced, base_url);
_refs[base_url] = referenced;
}
if (ref.find('#') == std::string::npos || ref.substr(ref.find('#') + 1).empty()) {
return;
}
} else if (ref.find("#/") == 0) {
target = schema;
n["$ref"] = url + ref;
ref = url + ref;
} else {
_errors.push_back("Unsupported ref: " + ref);
return;
}
std::string pointer = ref.substr(ref.find('#') + 1);
std::vector<std::string> tokens = string_split(pointer, "/");
for (size_t i = 1; i < tokens.size(); ++i) {
const std::string& sel = tokens[i];
if (target.is_object() && target.contains(sel)) {
target = target[sel];
} else if (target.is_array()) {
size_t sel_index;
try {
sel_index = std::stoull(sel);
} catch (const std::invalid_argument & e) {
sel_index = target.size();
}
if (sel_index >= target.size()) {
_errors.push_back("Error resolving ref " + ref + ": " + sel + " not in " + target.dump());
return;
}
target = target[sel_index];
} else {
_errors.push_back("Error resolving ref " + ref + ": " + sel + " not in " + target.dump());
return;
}
}
_refs[ref] = target;
}
} else {
for (const auto & kv : n.items()) {
visit_refs(kv.value());
}
}
}
};
visit_refs(schema);
}
static std::string _generate_constant_rule(const json & value) {
return format_literal(value.dump());
}
std::string visit(const json & schema, const std::string & name) {
json schema_type = schema.contains("type") ? schema["type"] : json();
std::string schema_format = schema.contains("format") ? schema["format"].get<std::string>() : "";
std::string rule_name = is_reserved_name(name) ? name + "-" : name.empty() ? "root" : name;
if (schema.contains("$ref")) {
return _add_rule(rule_name, _resolve_ref(schema["$ref"]));
}
if (schema.contains("oneOf") || schema.contains("anyOf")) {
std::vector<json> alt_schemas = schema.contains("oneOf") ? schema["oneOf"].get<std::vector<json>>() : schema["anyOf"].get<std::vector<json>>();
return _add_rule(rule_name, _generate_union_rule(name, alt_schemas));
}
if (schema_type.is_array()) {
std::vector<json> schema_types;
for (const auto & t : schema_type) {
json schema_copy(schema);
schema_copy["type"] = t;
schema_types.push_back(schema_copy);
}
return _add_rule(rule_name, _generate_union_rule(name, schema_types));
}
if (schema.contains("const")) {
return _add_rule(rule_name, _generate_constant_rule(schema["const"]) + " space");
}
if (schema.contains("enum")) {
std::vector<std::string> enum_values;
for (const auto & v : schema["enum"]) {
enum_values.push_back(_generate_constant_rule(v));
}
return _add_rule(rule_name, "(" + string_join(enum_values, " | ") + ") space");
}
if ((schema_type.is_null() || schema_type == "object")
&& (schema.contains("properties") ||
(schema.contains("additionalProperties") && schema["additionalProperties"] != true))) {
std::unordered_set<std::string> required;
if (schema.contains("required") && schema["required"].is_array()) {
for (const auto & item : schema["required"]) {
if (item.is_string()) {
required.insert(item.get<std::string>());
}
}
}
std::vector<std::pair<std::string, json>> properties;
if (schema.contains("properties")) {
for (const auto & prop : schema["properties"].items()) {
properties.emplace_back(prop.key(), prop.value());
}
}
return _add_rule(rule_name,
_build_object_rule(
properties, required, name,
schema.contains("additionalProperties") ? schema["additionalProperties"] : json()));
}
if ((schema_type.is_null() || schema_type == "object" || schema_type == "string") && schema.contains("allOf")) {
std::unordered_set<std::string> required;
std::vector<std::pair<std::string, json>> properties;
std::map<std::string, size_t> enum_values;
const std::string& hybrid_name = name;
std::function<void(const json &, bool)> add_component = [&](const json & comp_schema, bool is_required) {
if (comp_schema.contains("$ref")) {
add_component(_refs[comp_schema["$ref"]], is_required);
} else if (comp_schema.contains("properties")) {
for (const auto & prop : comp_schema["properties"].items()) {
properties.emplace_back(prop.key(), prop.value());
if (is_required) {
required.insert(prop.key());
}
}
} else if (comp_schema.contains("enum")) {
for (const auto & v : comp_schema["enum"]) {
const auto rule = _generate_constant_rule(v);
if (enum_values.find(rule) == enum_values.end()) {
enum_values[rule] = 0;
}
enum_values[rule] += 1;
}
} else {
// todo warning
}
};
for (const auto & t : schema["allOf"]) {
if (t.contains("anyOf")) {
for (const auto & tt : t["anyOf"]) {
add_component(tt, false);
}
} else {
add_component(t, true);
}
}
if (!enum_values.empty()) {
std::vector<std::string> enum_intersection;
for (const auto & p : enum_values) {
if (p.second == schema["allOf"].size()) {
enum_intersection.push_back(p.first);
}
}
if (!enum_intersection.empty()) {
return _add_rule(rule_name, "(" + string_join(enum_intersection, " | ") + ") space");
}
}
return _add_rule(rule_name, _build_object_rule(properties, required, hybrid_name, json()));
}
if ((schema_type.is_null() || schema_type == "array") && (schema.contains("items") || schema.contains("prefixItems"))) {
json items = schema.contains("items") ? schema["items"] : schema["prefixItems"];
if (items.is_array()) {
std::string rule = "\"[\" space ";
for (size_t i = 0; i < items.size(); i++) {
if (i > 0) {
rule += " \",\" space ";
}
rule += visit(items[i], name + (name.empty() ? "" : "-") + "tuple-" + std::to_string(i));
}
rule += " \"]\" space";
return _add_rule(rule_name, rule);
}
std::string item_rule_name = visit(items, name + (name.empty() ? "" : "-") + "item");
int min_items = schema.contains("minItems") ? schema["minItems"].get<int>() : 0;
json max_items_json = schema.contains("maxItems") ? schema["maxItems"] : json();
int max_items = max_items_json.is_number_integer() ? max_items_json.get<int>() : std::numeric_limits<int>::max();
return _add_rule(rule_name, "\"[\" space " + build_repetition(item_rule_name, min_items, max_items, "\",\" space") + " \"]\" space");
}
if ((schema_type.is_null() || schema_type == "string") && schema.contains("pattern")) {
return _visit_pattern(schema["pattern"], rule_name);
}
if ((schema_type.is_null() || schema_type == "string") && std::regex_match(schema_format, std::regex("^uuid[1-5]?$"))) {
return _add_primitive(rule_name == "root" ? "root" : schema_format, PRIMITIVE_RULES.at("uuid"));
}
if ((schema_type.is_null() || schema_type == "string") && STRING_FORMAT_RULES.find(schema_format + "-string") != STRING_FORMAT_RULES.end()) {
auto prim_name = schema_format + "-string";
return _add_rule(rule_name, _add_primitive(prim_name, STRING_FORMAT_RULES.at(prim_name)));
}
if (schema_type == "string" && (schema.contains("minLength") || schema.contains("maxLength"))) {
std::string char_rule = _add_primitive("char", PRIMITIVE_RULES.at("char"));
int min_len = schema.contains("minLength") ? schema["minLength"].get<int>() : 0;
int max_len = schema.contains("maxLength") ? schema["maxLength"].get<int>() : std::numeric_limits<int>::max();
return _add_rule(rule_name, "\"\\\"\" " + build_repetition(char_rule, min_len, max_len) + " \"\\\"\" space");
}
if (schema_type == "integer" && (schema.contains("minimum") || schema.contains("exclusiveMinimum") || schema.contains("maximum") || schema.contains("exclusiveMaximum"))) {
int64_t min_value = std::numeric_limits<int64_t>::min();
int64_t max_value = std::numeric_limits<int64_t>::max();
if (schema.contains("minimum")) {
min_value = schema["minimum"].get<int64_t>();
} else if (schema.contains("exclusiveMinimum")) {
min_value = schema["exclusiveMinimum"].get<int64_t>() + 1;
}
if (schema.contains("maximum")) {
max_value = schema["maximum"].get<int64_t>();
} else if (schema.contains("exclusiveMaximum")) {
max_value = schema["exclusiveMaximum"].get<int64_t>() - 1;
}
std::stringstream out;
out << "(";
build_min_max_int(min_value, max_value, out);
out << ") space";
return _add_rule(rule_name, out.str());
}
if (schema.empty() || schema_type == "object") {
return _add_rule(rule_name, _add_primitive("object", PRIMITIVE_RULES.at("object")));
}
if (schema_type.is_null() && schema.is_object()) {
// No type constraint and no recognized structural keywords (e.g. {"description": "..."}).
// Per JSON Schema semantics this is equivalent to {} and accepts any value.
return _add_rule(rule_name, _add_primitive("value", PRIMITIVE_RULES.at("value")));
}
if (!schema_type.is_string() || PRIMITIVE_RULES.find(schema_type.get<std::string>()) == PRIMITIVE_RULES.end()) {
_errors.push_back("Unrecognized schema: " + schema.dump());
return "";
}
// TODO: support minimum, maximum, exclusiveMinimum, exclusiveMaximum at least for zero
return _add_primitive(rule_name == "root" ? "root" : schema_type.get<std::string>(), PRIMITIVE_RULES.at(schema_type.get<std::string>()));
}
void check_errors() {
if (!_errors.empty()) {
throw std::invalid_argument("JSON schema conversion failed:\n" + string_join(_errors, "\n"));
}
if (!_warnings.empty()) {
fprintf(stderr, "WARNING: JSON schema conversion was incomplete: %s\n", string_join(_warnings, "; ").c_str());
}
}
std::string format_grammar() {
std::stringstream ss;
for (const auto & kv : _rules) {
ss << kv.first << " ::= " << kv.second << '\n';
}
return ss.str();
}
};
// common_schema_info implementation (pimpl)
common_schema_info::common_schema_info()
: impl_(std::make_unique<common_schema_converter>(
[](const std::string &) { return json(); },
false)) {}
common_schema_info::~common_schema_info() = default;
common_schema_info::common_schema_info(common_schema_info &&) noexcept = default;
common_schema_info & common_schema_info::operator=(common_schema_info &&) noexcept = default;
void common_schema_info::resolve_refs(nlohmann::ordered_json & schema) {
impl_->resolve_refs(schema, "");
}
// Determines if a JSON schema can resolve to a string type through any path.
// Some models emit raw string values rather than JSON-encoded strings for string parameters.
// If any branch of the schema (via oneOf, anyOf, $ref, etc.) permits a string, this returns
// true, allowing callers to handle the value as a raw string for simplicity.
bool common_schema_info::resolves_to_string(const nlohmann::ordered_json & schema) {
std::unordered_set<std::string> visited_refs;
std::function<bool(const json &)> check = [&](const json & s) -> bool {
if (!s.is_object()) {
return false;
}
// Handle $ref
if (s.contains("$ref")) {
const std::string & ref = s["$ref"];
if (visited_refs.find(ref) != visited_refs.end()) {
// Circular reference, assume not a string to be safe
return false;
}
visited_refs.insert(ref);
auto it = impl_->_refs.find(ref);
if (it != impl_->_refs.end()) {
return check(it->second);
}
return false;
}
// Check type field
if (s.contains("type")) {
const json & schema_type = s["type"];
if (schema_type.is_string()) {
if (schema_type == "string") {
return true;
}
} else if (schema_type.is_array()) {
// Type can be an array like ["string", "null"]
for (const auto & t : schema_type) {
if (t == "string") {
return true;
}
}
}
}
// Check oneOf/anyOf - if any alternative can be a string
if (s.contains("oneOf")) {
for (const auto & alt : s["oneOf"]) {
if (check(alt)) {
return true;
}
}
}
if (s.contains("anyOf")) {
for (const auto & alt : s["anyOf"]) {
if (check(alt)) {
return true;
}
}
}
// Check allOf - all components must be compatible with string type
if (s.contains("allOf")) {
bool all_string = true;
for (const auto & component : s["allOf"]) {
if (!check(component)) {
all_string = false;
break;
}
}
if (all_string) {
return true;
}
}
// Check const - if the constant value is a string
if (s.contains("const")) {
if (s["const"].is_string()) {
return true;
}
}
// Check enum - if any enum value is a string
if (s.contains("enum")) {
for (const auto & val : s["enum"]) {
if (val.is_string()) {
return true;
}
}
}
// String-specific keywords imply string type
if (s.contains("pattern") || s.contains("minLength") || s.contains("maxLength")) {
return true;
}
// Check format - many formats imply string
if (s.contains("format")) {
const std::string & fmt = s["format"];
if (fmt == "date" || fmt == "time" || fmt == "date-time" ||
fmt == "uri" || fmt == "email" || fmt == "hostname" ||
fmt == "ipv4" || fmt == "ipv6" || fmt == "uuid" ||
fmt.find("uuid") == 0) {
return true;
}
}
return false;
};
return check(schema);
}
std::string json_schema_to_grammar(const json & schema, bool force_gbnf) {
#ifdef LLAMA_USE_LLGUIDANCE
if (!force_gbnf) {
return "%llguidance {}\nstart: %json " + schema.dump();
}
#else
(void)force_gbnf;
#endif // LLAMA_USE_LLGUIDANCE
return build_grammar([&](const common_grammar_builder & callbacks) {
auto copy = schema;
callbacks.resolve_refs(copy);
callbacks.add_schema("", copy);
});
}
std::string build_grammar(const std::function<void(const common_grammar_builder &)> & cb, const common_grammar_options & options) {
common_schema_converter converter([&](const std::string &) { return json(); }, options.dotall);
common_grammar_builder builder {
/* .add_rule = */ [&](const std::string & name, const std::string & rule) {
return converter._add_rule(name, rule);
},
/* .add_schema = */ [&](const std::string & name, const nlohmann::ordered_json & schema) {
return converter.visit(schema, name == "root" ? "" : name);
},
/* .resolve_refs = */ [&](nlohmann::ordered_json & schema) {
converter.resolve_refs(schema, "");
}
};
cb(builder);
converter.check_errors();
return converter.format_grammar();
}
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