ikawrakow/ik_llama.cpp
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f67fd9a4528387baf8fe950841b2eafc3887cfe7
ik_llama.cpp/common/jinja/value.cpp
firecoperana ab1d74074b common : introduce composable PEG parser combinators for chat parsing and new jinja template engine (#1369) 
---------

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

common : add nemotron 3 parsing (#18077)

common : add parser for ministral/mistral large 3/devstral 2 (#17713)

common : default content to an empty string (#18485)

chat: make tool description and parameters optional per OpenAI spec (#18478)

Per the OpenAI API specification, both 'description' and 'parameters'
fields in tool function definitions are optional. Previously, the parser
would throw an exception if these fields were missing.

Attempts to fix #17667

common : implement new jinja template engine (#18462)
---------

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

jinja: correct member access rule (#18905)

jinja : fix lexing of float literals with sign (#18901)

jinja : add missing tojson filter for bool (#18900)

jinja : attribute support for join, map and sort (#18883)

jinja : fix object item order (and properly implement dictsort) (#18904)

tests : add test-jinja -py option for cross-checking (#18906)

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

---------

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

ci : run test-jinja -py on high perf [no ci] (#18916)

jinja : fix undefined keys and attributes and int/float as bool (#18924)

jinja: support none|string (#18995)

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

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

---------

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

jinja : implement mixed type object keys (#18955)

---------

Co-authored-by: Xuan Son Nguyen <son@huggingface.co>

jinja : undefined should be treated as sequence/iterable (return string/array) by filters/tests (#19147)

`tojson` is not a supported `undefined` filter

keep it DRY and fix some types

jinja : do not pass empty tools and add some none filters (#19176)

jinja : add unordered_map include to value.h [no ci] (#19205)

jinja : add missing 'in' test to template engine (#19004) (#19239)

The jinja template parser was missing the 'in' test from
global_builtins(), causing templates using reject("in", ...),
select("in", ...), or 'x is in(y)' to fail with
"selectattr: unknown test 'in'".

This broke tool-calling for Qwen3-Coder and any other model
whose chat template uses the 'in' test.

Added test_is_in supporting array, string, and object containment
checks, mirroring the existing 'in' operator logic in runtime.cpp.

Includes test cases for all three containment types plus
reject/select filter usage.

Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>

---------

Co-authored-by: Sid Mohan <sidmohan0@users.noreply.github.com>
Co-authored-by: Claude Opus 4.5 <noreply@anthropic.com>
Co-authored-by: Xuan Son Nguyen <son@huggingface.co>

Add Jinja support for "indent" string filter (#19529)

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

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

---------

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

add vendor

refactor chat

server : support preserving reasoning_content in assistant message (#18994)

chat : fix translategemma crash on common_chat_format_example (#19019)

chat: fix language input for translategemma (#19052)

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

---------

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

chat: fix case where template accepts type content only (#19419)

mtmd : chat : Fix extra \n between text and media marker (#19595)

Thanks to @tugot17 for detecting and reporting the issue.

For vision models (e.g. LFM2.5-VL-1.6B and Qwen/Qwen3-VL-4B-Instruct) `llama-mtmd-cli` produces identical output to HF implementation.

However `llama-server` doesn't. I traced it down to extra newline
inserted after `<__media__>`.

This happens in `to_json_oaicompat`, that treats media markers as text
and joins all parts with `\n` separator.

PR introduces new type `media_marker` and uses it for media markers.
Extra logic is added to prevent insertion of newlines before and after
media markers.

With this change number of input tokens is identical to HF
implementation and as a result the output is also identical.

I explored other ways to address the issue
* remove completely `\n` between text parts in `to_json_oaicompat`
* merge text messages in server-common.cpp before sending them to `to_json_oaicompat`

Please propose alternative ways of fixing this issue.

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

---------

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

common : merge qwen3-coder and nemotron nano 3 parsers (#19765)

common : fix improper trimming in XML parser on complete message (#19805)

Co-authored-by: Jules LEIDELINGER <11395311+julio75012@users.noreply.github.com>

jinja: correct stats for tojson and string filters (#19785)

jinja : correct default size for string slices (#19913)

common : handle unicode during partial json parsing (#16526)

common : fix json schema with '\' in literals (#17307)

add back qwen_coder_xml and mirothinker

Co-authored-by: Aldehir Rojas <hello@alde.dev>
2026-03-09 11:03:33 +01:00

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#include "runtime.h"
#include "value.h"
// for converting from JSON to jinja values
#include <nlohmann/json.hpp>
#include <sstream>
#include <string>
#include <cctype>
#include <vector>
#include <optional>
#include <algorithm>
#define FILENAME "jinja-value"
namespace jinja {
// func_args method implementations
value func_args::get_kwarg(const std::string & key, value default_val) const {
for (const auto & arg : args) {
if (is_val<value_kwarg>(arg)) {
auto * kwarg = cast_val<value_kwarg>(arg);
if (kwarg->key == key) {
return kwarg->val;
}
}
}
return default_val;
}
value func_args::get_kwarg_or_pos(const std::string & key, size_t pos) const {
value val = get_kwarg(key, mk_val<value_undefined>());
if (val->is_undefined() && pos < count() && !is_val<value_kwarg>(args[pos])) {
return args[pos];
}
return val;
}
value func_args::get_pos(size_t pos) const {
if (count() > pos) {
return args[pos];
}
throw raised_exception("Function '" + func_name + "' expected at least " + std::to_string(pos + 1) + " arguments, got " + std::to_string(count()));
}
value func_args::get_pos(size_t pos, value default_val) const {
if (count() > pos) {
return args[pos];
}
return default_val;
}
void func_args::push_back(const value & val) {
args.push_back(val);
}
void func_args::push_front(const value & val) {
args.insert(args.begin(), val);
}
const std::vector<value> & func_args::get_args() const {
return args;
}
/**
* Function that mimics Python's array slicing.
*/
template<typename T>
static T slice(const T & array, int64_t start, int64_t stop, int64_t step = 1) {
int64_t len = static_cast<int64_t>(array.size());
int64_t direction = (step > 0) ? 1 : ((step < 0) ? -1 : 0);
int64_t start_val = 0;
int64_t stop_val = 0;
if (direction >= 0) {
start_val = start;
if (start_val < 0) {
start_val = std::max(len + start_val, (int64_t)0);
} else {
start_val = std::min(start_val, len);
}
stop_val = stop;
if (stop_val < 0) {
stop_val = std::max(len + stop_val, (int64_t)0);
} else {
stop_val = std::min(stop_val, len);
}
} else {
start_val = len - 1;
if (start_val < 0) {
start_val = std::max(len + start_val, (int64_t)-1);
} else {
start_val = std::min(start_val, len - 1);
}
stop_val = -1;
if (stop_val < -1) {
stop_val = std::max(len + stop_val, (int64_t)-1);
} else {
stop_val = std::min(stop_val, len - 1);
}
}
T result;
if (direction == 0) {
return result;
}
for (int64_t i = start_val; direction * i < direction * stop_val; i += step) {
if (i >= 0 && i < len) {
result.push_back(array[static_cast<size_t>(i)]);
}
}
return result;
}
template<typename T>
static value empty_value_fn(const func_args &) {
if constexpr (std::is_same_v<T, value_int>) {
return mk_val<T>(0);
} else if constexpr (std::is_same_v<T, value_float>) {
return mk_val<T>(0.0);
} else if constexpr (std::is_same_v<T, value_bool>) {
return mk_val<T>(false);
} else {
return mk_val<T>();
}
}
template<typename T>
static value test_type_fn(const func_args & args) {
args.ensure_count(1);
bool is_type = is_val<T>(args.get_pos(0));
JJ_DEBUG("test_type_fn: type=%s result=%d", typeid(T).name(), is_type ? 1 : 0);
return mk_val<value_bool>(is_type);
}
template<typename T, typename U>
static value test_type_fn(const func_args & args) {
args.ensure_count(1);
bool is_type = is_val<T>(args.get_pos(0)) || is_val<U>(args.get_pos(0));
JJ_DEBUG("test_type_fn: type=%s or %s result=%d", typeid(T).name(), typeid(U).name(), is_type ? 1 : 0);
return mk_val<value_bool>(is_type);
}
template<typename T, typename U, typename V>
static value test_type_fn(const func_args & args) {
args.ensure_count(1);
bool is_type = is_val<T>(args.get_pos(0)) || is_val<U>(args.get_pos(0)) || is_val<V>(args.get_pos(0));
JJ_DEBUG("test_type_fn: type=%s, %s or %s result=%d", typeid(T).name(), typeid(U).name(), typeid(V).name(), is_type ? 1 : 0);
return mk_val<value_bool>(is_type);
}
template<value_compare_op op>
static value test_compare_fn(const func_args & args) {
args.ensure_count(2, 2);
return mk_val<value_bool>(value_compare(args.get_pos(0), args.get_pos(1), op));
}
static value tojson(const func_args & args) {
args.ensure_count(1, 5);
value val_ascii = args.get_kwarg_or_pos("ensure_ascii", 1);
value val_indent = args.get_kwarg_or_pos("indent", 2);
value val_separators = args.get_kwarg_or_pos("separators", 3);
value val_sort = args.get_kwarg_or_pos("sort_keys", 4);
int indent = -1;
if (args.ctx.is_get_stats) {
// mark as used (recursively) for stats
auto val_input = args.get_pos(0);
value_t::stats_t::mark_used(const_cast<value&>(val_input), true);
}
if (is_val<value_int>(val_indent)) {
indent = static_cast<int>(val_indent->as_int());
}
if (val_ascii->as_bool()) { // undefined == false
throw not_implemented_exception("tojson ensure_ascii=true not implemented");
}
if (val_sort->as_bool()) { // undefined == false
throw not_implemented_exception("tojson sort_keys=true not implemented");
}
auto separators = (is_val<value_array>(val_separators) ? val_separators : mk_val<value_array>())->as_array();
std::string item_sep = separators.size() > 0 ? separators[0]->as_string().str() : (indent < 0 ? ", " : ",");
std::string key_sep = separators.size() > 1 ? separators[1]->as_string().str() : ": ";
std::string json_str = value_to_json(args.get_pos(0), indent, item_sep, key_sep);
return mk_val<value_string>(json_str);
}
template<bool is_reject>
static value selectattr(const func_args & args) {
args.ensure_count(2, 4);
args.ensure_vals<value_array, value_string, value_string, value_string>(true, true, false, false);
auto arr = args.get_pos(0)->as_array();
auto attribute = args.get_pos(1);
auto out = mk_val<value_array>();
value val_default = mk_val<value_undefined>();
if (args.count() == 2) {
// example: array | selectattr("active")
for (const auto & item : arr) {
if (!is_val<value_object>(item)) {
throw raised_exception("selectattr: item is not an object");
}
value attr_val = item->at(attribute, val_default);
bool is_selected = attr_val->as_bool();
if constexpr (is_reject) is_selected = !is_selected;
if (is_selected) out->push_back(item);
}
return out;
} else if (args.count() == 3) {
// example: array | selectattr("equalto", "text")
// translated to: test_is_equalto(item, "text")
std::string test_name = args.get_pos(1)->as_string().str();
value test_val = args.get_pos(2);
auto & builtins = global_builtins();
auto it = builtins.find("test_is_" + test_name);
if (it == builtins.end()) {
throw raised_exception("selectattr: unknown test '" + test_name + "'");
}
auto test_fn = it->second;
for (const auto & item : arr) {
func_args test_args(args.ctx);
test_args.push_back(item); // current object
test_args.push_back(test_val); // extra argument
value test_result = test_fn(test_args);
bool is_selected = test_result->as_bool();
if constexpr (is_reject) is_selected = !is_selected;
if (is_selected) out->push_back(item);
}
return out;
} else if (args.count() == 4) {
// example: array | selectattr("status", "equalto", "active")
// translated to: test_is_equalto(item.status, "active")
std::string test_name = args.get_pos(2)->as_string().str();
auto extra_arg = args.get_pos(3);
auto & builtins = global_builtins();
auto it = builtins.find("test_is_" + test_name);
if (it == builtins.end()) {
throw raised_exception("selectattr: unknown test '" + test_name + "'");
}
auto test_fn = it->second;
for (const auto & item : arr) {
if (!is_val<value_object>(item)) {
throw raised_exception("selectattr: item is not an object");
}
value attr_val = item->at(attribute, val_default);
func_args test_args(args.ctx);
test_args.push_back(attr_val); // attribute value
test_args.push_back(extra_arg); // extra argument
value test_result = test_fn(test_args);
bool is_selected = test_result->as_bool();
if constexpr (is_reject) is_selected = !is_selected;
if (is_selected) out->push_back(item);
}
return out;
} else {
throw raised_exception("selectattr: invalid number of arguments");
}
return out;
}
static value default_value(const func_args & args) {
args.ensure_count(2, 3);
value val_check = args.get_kwarg_or_pos("boolean", 2);
bool check_bool = val_check->as_bool(); // undefined == false
bool no_value = check_bool
? (!args.get_pos(0)->as_bool())
: (args.get_pos(0)->is_undefined() || args.get_pos(0)->is_none());
return no_value ? args.get_pos(1) : args.get_pos(0);
}
const func_builtins & global_builtins() {
static const func_builtins builtins = {
{"raise_exception", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
std::string msg = args.get_pos(0)->as_string().str();
throw raised_exception("Jinja Exception: " + msg);
}},
{"namespace", [](const func_args & args) -> value {
auto out = mk_val<value_object>();
for (const auto & arg : args.get_args()) {
if (!is_val<value_kwarg>(arg)) {
throw raised_exception("namespace() arguments must be kwargs");
}
auto kwarg = cast_val<value_kwarg>(arg);
JJ_DEBUG("namespace: adding key '%s'", kwarg->key.c_str());
out->insert(kwarg->key, kwarg->val);
}
return out;
}},
{"strftime_now", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
std::string format = args.get_pos(0)->as_string().str();
// get current time
// TODO: make sure this is the same behavior as Python's strftime
char buf[100];
if (std::strftime(buf, sizeof(buf), format.c_str(), std::localtime(&args.ctx.current_time))) {
return mk_val<value_string>(std::string(buf));
} else {
throw raised_exception("strftime_now: failed to format time");
}
}},
{"range", [](const func_args & args) -> value {
args.ensure_count(1, 3);
args.ensure_vals<value_int, value_int, value_int>(true, false, false);
auto arg0 = args.get_pos(0);
auto arg1 = args.get_pos(1, mk_val<value_undefined>());
auto arg2 = args.get_pos(2, mk_val<value_undefined>());
int64_t start, stop, step;
if (args.count() == 1) {
start = 0;
stop = arg0->as_int();
step = 1;
} else if (args.count() == 2) {
start = arg0->as_int();
stop = arg1->as_int();
step = 1;
} else {
start = arg0->as_int();
stop = arg1->as_int();
step = arg2->as_int();
}
auto out = mk_val<value_array>();
if (step == 0) {
throw raised_exception("range() step argument must not be zero");
}
if (step > 0) {
for (int64_t i = start; i < stop; i += step) {
out->push_back(mk_val<value_int>(i));
}
} else {
for (int64_t i = start; i > stop; i += step) {
out->push_back(mk_val<value_int>(i));
}
}
return out;
}},
{"tojson", tojson},
// tests
{"test_is_boolean", test_type_fn<value_bool>},
{"test_is_callable", test_type_fn<value_func>},
{"test_is_odd", [](const func_args & args) -> value {
args.ensure_vals<value_int>();
int64_t val = args.get_pos(0)->as_int();
return mk_val<value_bool>(val % 2 != 0);
}},
{"test_is_even", [](const func_args & args) -> value {
args.ensure_vals<value_int>();
int64_t val = args.get_pos(0)->as_int();
return mk_val<value_bool>(val % 2 == 0);
}},
{"test_is_false", [](const func_args & args) -> value {
args.ensure_count(1);
bool val = is_val<value_bool>(args.get_pos(0)) && !args.get_pos(0)->as_bool();
return mk_val<value_bool>(val);
}},
{"test_is_true", [](const func_args & args) -> value {
args.ensure_count(1);
bool val = is_val<value_bool>(args.get_pos(0)) && args.get_pos(0)->as_bool();
return mk_val<value_bool>(val);
}},
{"test_is_divisibleby", [](const func_args & args) -> value {
args.ensure_vals<value_int, value_int>();
bool res = args.get_pos(0)->val_int % args.get_pos(1)->val_int == 0;
return mk_val<value_bool>(res);
}},
{"test_is_string", test_type_fn<value_string>},
{"test_is_integer", test_type_fn<value_int>},
{"test_is_float", test_type_fn<value_float>},
{"test_is_number", test_type_fn<value_int, value_float>},
{"test_is_iterable", test_type_fn<value_array, value_string, value_undefined>},
{"test_is_sequence", test_type_fn<value_array, value_string, value_undefined>},
{"test_is_mapping", test_type_fn<value_object>},
{"test_is_lower", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
return mk_val<value_bool>(args.get_pos(0)->val_str.is_lowercase());
}},
{"test_is_upper", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
return mk_val<value_bool>(args.get_pos(0)->val_str.is_uppercase());
}},
{"test_is_none", test_type_fn<value_none>},
{"test_is_defined", [](const func_args & args) -> value {
args.ensure_count(1);
bool res = !args.get_pos(0)->is_undefined();
JJ_DEBUG("test_is_defined: result=%d", res ? 1 : 0);
return mk_val<value_bool>(res);
}},
{"test_is_undefined", test_type_fn<value_undefined>},
{"test_is_eq", test_compare_fn<value_compare_op::eq>},
{"test_is_equalto", test_compare_fn<value_compare_op::eq>},
{"test_is_ge", test_compare_fn<value_compare_op::ge>},
{"test_is_gt", test_compare_fn<value_compare_op::gt>},
{"test_is_greaterthan", test_compare_fn<value_compare_op::gt>},
{"test_is_lt", test_compare_fn<value_compare_op::lt>},
{"test_is_lessthan", test_compare_fn<value_compare_op::lt>},
{"test_is_ne", test_compare_fn<value_compare_op::ne>},
{"test_is_in", [](const func_args & args) -> value {
args.ensure_count(2);
auto needle = args.get_pos(0);
auto haystack = args.get_pos(1);
if (is_val<value_undefined>(haystack)) {
return mk_val<value_bool>(false);
}
if (is_val<value_array>(haystack)) {
for (const auto & item : haystack->as_array()) {
if (*needle == *item) {
return mk_val<value_bool>(true);
}
}
return mk_val<value_bool>(false);
}
if (is_val<value_string>(haystack)) {
if (!is_val<value_string>(needle)) {
throw raised_exception("'in' test expects args[1] as string when args[0] is string, got args[1] as " + needle->type());
}
return mk_val<value_bool>(
haystack->as_string().str().find(needle->as_string().str()) != std::string::npos);
}
if (is_val<value_object>(haystack)) {
return mk_val<value_bool>(haystack->has_key(needle));
}
throw raised_exception("'in' test expects iterable as first argument, got " + haystack->type());
}},
{"test_is_test", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
auto & builtins = global_builtins();
std::string test_name = args.get_pos(0)->val_str.str();
auto it = builtins.find("test_is_" + test_name);
bool res = it != builtins.end();
return mk_val<value_bool>(res);
}},
{"test_is_sameas", [](const func_args & args) -> value {
// Check if an object points to the same memory address as another object
(void)args;
throw not_implemented_exception("sameas test not implemented");
}},
{"test_is_escaped", [](const func_args & args) -> value {
(void)args;
throw not_implemented_exception("escaped test not implemented");
}},
{"test_is_filter", [](const func_args & args) -> value {
(void)args;
throw not_implemented_exception("filter test not implemented");
}},
};
return builtins;
}
const func_builtins & value_int_t::get_builtins() const {
static const func_builtins builtins = {
{"default", default_value},
{"abs", [](const func_args & args) -> value {
args.ensure_vals<value_int>();
int64_t val = args.get_pos(0)->as_int();
return mk_val<value_int>(val < 0 ? -val : val);
}},
{"float", [](const func_args & args) -> value {
args.ensure_vals<value_int>();
double val = static_cast<double>(args.get_pos(0)->as_int());
return mk_val<value_float>(val);
}},
{"tojson", tojson},
{"string", tojson},
};
return builtins;
}
const func_builtins & value_float_t::get_builtins() const {
static const func_builtins builtins = {
{"default", default_value},
{"abs", [](const func_args & args) -> value {
args.ensure_vals<value_float>();
double val = args.get_pos(0)->as_float();
return mk_val<value_float>(val < 0.0 ? -val : val);
}},
{"int", [](const func_args & args) -> value {
args.ensure_vals<value_float>();
int64_t val = static_cast<int64_t>(args.get_pos(0)->as_float());
return mk_val<value_int>(val);
}},
{"tojson", tojson},
{"string", tojson},
};
return builtins;
}
static bool string_startswith(const std::string & str, const std::string & prefix) {
if (str.length() < prefix.length()) return false;
return str.compare(0, prefix.length(), prefix) == 0;
}
static bool string_endswith(const std::string & str, const std::string & suffix) {
if (str.length() < suffix.length()) return false;
return str.compare(str.length() - suffix.length(), suffix.length(), suffix) == 0;
}
const func_builtins & value_string_t::get_builtins() const {
static const func_builtins builtins = {
{"default", default_value},
{"upper", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
jinja::string str = args.get_pos(0)->as_string().uppercase();
return mk_val<value_string>(str);
}},
{"lower", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
jinja::string str = args.get_pos(0)->as_string().lowercase();
return mk_val<value_string>(str);
}},
{"strip", [](const func_args & args) -> value {
value val_input = args.get_pos(0);
if (!is_val<value_string>(val_input)) {
throw raised_exception("strip() first argument must be a string");
}
value val_chars = args.get_kwarg_or_pos("chars", 1);
if (val_chars->is_undefined()) {
return mk_val<value_string>(args.get_pos(0)->as_string().strip(true, true));
} else {
return mk_val<value_string>(args.get_pos(0)->as_string().strip(true, true, val_chars->as_string().str()));
}
}},
{"rstrip", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
value val_chars = args.get_kwarg_or_pos("chars", 1);
if (val_chars->is_undefined()) {
return mk_val<value_string>(args.get_pos(0)->as_string().strip(false, true));
} else {
return mk_val<value_string>(args.get_pos(0)->as_string().strip(false, true, val_chars->as_string().str()));
}
}},
{"lstrip", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
value val_chars = args.get_kwarg_or_pos("chars", 1);
if (val_chars->is_undefined()) {
return mk_val<value_string>(args.get_pos(0)->as_string().strip(true, false));
} else {
return mk_val<value_string>(args.get_pos(0)->as_string().strip(true, false, val_chars->as_string().str()));
}
}},
{"title", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
jinja::string str = args.get_pos(0)->as_string().titlecase();
return mk_val<value_string>(str);
}},
{"capitalize", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
jinja::string str = args.get_pos(0)->as_string().capitalize();
return mk_val<value_string>(str);
}},
{"length", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
jinja::string str = args.get_pos(0)->as_string();
return mk_val<value_int>(str.length());
}},
{"startswith", [](const func_args & args) -> value {
args.ensure_vals<value_string, value_string>();
std::string str = args.get_pos(0)->as_string().str();
std::string prefix = args.get_pos(1)->as_string().str();
return mk_val<value_bool>(string_startswith(str, prefix));
}},
{"endswith", [](const func_args & args) -> value {
args.ensure_vals<value_string, value_string>();
std::string str = args.get_pos(0)->as_string().str();
std::string suffix = args.get_pos(1)->as_string().str();
return mk_val<value_bool>(string_endswith(str, suffix));
}},
{"split", [](const func_args & args) -> value {
args.ensure_count(1, 3);
value val_input = args.get_pos(0);
if (!is_val<value_string>(val_input)) {
throw raised_exception("split() first argument must be a string");
}
std::string str = val_input->as_string().str();
// FIXME: Support non-specified delimiter (split on consecutive (no leading or trailing) whitespace)
std::string delim = (args.count() > 1) ? args.get_pos(1)->as_string().str() : " ";
int64_t maxsplit = (args.count() > 2) ? args.get_pos(2)->as_int() : -1;
auto result = mk_val<value_array>();
size_t pos = 0;
std::string token;
while ((pos = str.find(delim)) != std::string::npos && maxsplit != 0) {
token = str.substr(0, pos);
result->push_back(mk_val<value_string>(token));
str.erase(0, pos + delim.length());
--maxsplit;
}
auto res = mk_val<value_string>(str);
res->val_str.mark_input_based_on(args.get_pos(0)->val_str);
result->push_back(std::move(res));
return result;
}},
{"rsplit", [](const func_args & args) -> value {
args.ensure_count(1, 3);
value val_input = args.get_pos(0);
if (!is_val<value_string>(val_input)) {
throw raised_exception("rsplit() first argument must be a string");
}
std::string str = val_input->as_string().str();
// FIXME: Support non-specified delimiter (split on consecutive (no leading or trailing) whitespace)
std::string delim = (args.count() > 1) ? args.get_pos(1)->as_string().str() : " ";
int64_t maxsplit = (args.count() > 2) ? args.get_pos(2)->as_int() : -1;
auto result = mk_val<value_array>();
size_t pos = 0;
std::string token;
while ((pos = str.rfind(delim)) != std::string::npos && maxsplit != 0) {
token = str.substr(pos + delim.length());
result->push_back(mk_val<value_string>(token));
str.erase(pos);
--maxsplit;
}
auto res = mk_val<value_string>(str);
res->val_str.mark_input_based_on(args.get_pos(0)->val_str);
result->push_back(std::move(res));
result->reverse();
return result;
}},
{"replace", [](const func_args & args) -> value {
args.ensure_vals<value_string, value_string, value_string, value_int>(true, true, true, false);
std::string str = args.get_pos(0)->as_string().str();
std::string old_str = args.get_pos(1)->as_string().str();
std::string new_str = args.get_pos(2)->as_string().str();
int64_t count = args.count() > 3 ? args.get_pos(3)->as_int() : -1;
if (count > 0) {
throw not_implemented_exception("String replace with count argument not implemented");
}
size_t pos = 0;
while ((pos = str.find(old_str, pos)) != std::string::npos) {
str.replace(pos, old_str.length(), new_str);
pos += new_str.length();
}
auto res = mk_val<value_string>(str);
res->val_str.mark_input_based_on(args.get_pos(0)->val_str);
return res;
}},
{"int", [](const func_args & args) -> value {
value val_input = args.get_pos(0);
value val_default = args.get_kwarg_or_pos("default", 1);
value val_base = args.get_kwarg_or_pos("base", 2);
const int base = val_base->is_undefined() ? 10 : val_base->as_int();
if (is_val<value_string>(val_input) == false) {
throw raised_exception("int() first argument must be a string");
}
std::string str = val_input->as_string().str();
try {
return mk_val<value_int>(std::stoi(str, nullptr, base));
} catch (...) {
return mk_val<value_int>(val_default->is_undefined() ? 0 : val_default->as_int());
}
}},
{"float", [](const func_args & args) -> value {
args.ensure_vals<value_string>();
value val_default = args.get_kwarg_or_pos("default", 1);
std::string str = args.get_pos(0)->as_string().str();
try {
return mk_val<value_float>(std::stod(str));
} catch (...) {
return mk_val<value_float>(val_default->is_undefined() ? 0.0 : val_default->as_float());
}
}},
{"string", [](const func_args & args) -> value {
// no-op
args.ensure_vals<value_string>();
return mk_val<value_string>(args.get_pos(0)->as_string());
}},
{"default", [](const func_args & args) -> value {
value input = args.get_pos(0);
if (!is_val<value_string>(input)) {
throw raised_exception("default() first argument must be a string");
}
value default_val = mk_val<value_string>("");
if (args.count() > 1 && !args.get_pos(1)->is_undefined()) {
default_val = args.get_pos(1);
}
value boolean_val = args.get_kwarg_or_pos("boolean", 2); // undefined == false
if (input->is_undefined() || (boolean_val->as_bool() && !input->as_bool())) {
return default_val;
} else {
return input;
}
}},
{"slice", [](const func_args & args) -> value {
args.ensure_count(1, 4);
args.ensure_vals<value_string, value_int, value_int, value_int>(true, true, false, false);
auto arg0 = args.get_pos(1);
auto arg1 = args.get_pos(2, mk_val<value_undefined>());
auto arg2 = args.get_pos(3, mk_val<value_undefined>());
int64_t start, stop, step;
if (args.count() == 1) {
start = 0;
stop = arg0->as_int();
step = 1;
} else if (args.count() == 2) {
start = arg0->as_int();
stop = arg1->as_int();
step = 1;
} else {
start = arg0->as_int();
stop = arg1->as_int();
step = arg2->as_int();
}
if (step == 0) {
throw raised_exception("slice step cannot be zero");
}
auto input = args.get_pos(0);
auto sliced = slice(input->as_string().str(), start, stop, step);
auto res = mk_val<value_string>(sliced);
res->val_str.mark_input_based_on(input->as_string());
return res;
}},
{"safe", [](const func_args & args) -> value {
// no-op for now
args.ensure_vals<value_string>();
return args.get_pos(0);
}},
{"tojson", tojson},
{"indent", [](const func_args &args) -> value {
args.ensure_count(1, 4);
value val_input = args.get_pos(0);
value val_width = args.get_kwarg_or_pos("width", 1);
const bool first = args.get_kwarg_or_pos("first", 2)->as_bool(); // undefined == false
const bool blank = args.get_kwarg_or_pos("blank", 3)->as_bool(); // undefined == false
if (!is_val<value_string>(val_input)) {
throw raised_exception("indent() first argument must be a string");
}
std::string indent;
if (is_val<value_int>(val_width)) {
indent.assign(val_width->as_int(), ' ');
} else if (is_val<value_string>(val_width)) {
indent = val_width->as_string().str();
} else {
indent = " ";
}
std::string indented;
std::string input = val_input->as_string().str();
std::istringstream iss = std::istringstream(input);
std::string line;
while (std::getline(iss, line)) {
if (!indented.empty()) {
indented.push_back('\n');
}
if ((indented.empty() ? first : (!line.empty() || blank))) {
indented += indent;
}
indented += line;
}
if (!input.empty() && input.back() == '\n') {
indented.push_back('\n');
if (blank) {
indented += indent;
}
}
auto res = mk_val<value_string>(indented);
res->val_str.mark_input_based_on(val_input->as_string());
return res;
}},
{"join", [](const func_args &) -> value {
throw not_implemented_exception("String join builtin not implemented");
}},
};
return builtins;
}
const func_builtins & value_bool_t::get_builtins() const {
static const func_builtins builtins = {
{"default", default_value},
{"int", [](const func_args & args) -> value {
args.ensure_vals<value_bool>();
bool val = args.get_pos(0)->as_bool();
return mk_val<value_int>(val ? 1 : 0);
}},
{"float", [](const func_args & args) -> value {
args.ensure_vals<value_bool>();
bool val = args.get_pos(0)->as_bool();
return mk_val<value_float>(val ? 1.0 : 0.0);
}},
{"string", [](const func_args & args) -> value {
args.ensure_vals<value_bool>();
bool val = args.get_pos(0)->as_bool();
return mk_val<value_string>(val ? "True" : "False");
}},
{"tojson", tojson},
};
return builtins;
}
const func_builtins & value_array_t::get_builtins() const {
static const func_builtins builtins = {
{"default", default_value},
{"list", [](const func_args & args) -> value {
args.ensure_vals<value_array>();
const auto & arr = args.get_pos(0)->as_array();
auto result = mk_val<value_array>();
for (const auto& v : arr) {
result->push_back(v);
}
return result;
}},
{"first", [](const func_args & args) -> value {
args.ensure_vals<value_array>();
const auto & arr = args.get_pos(0)->as_array();
if (arr.empty()) {
return mk_val<value_undefined>();
}
return arr[0];
}},
{"last", [](const func_args & args) -> value {
args.ensure_vals<value_array>();
const auto & arr = args.get_pos(0)->as_array();
if (arr.empty()) {
return mk_val<value_undefined>();
}
return arr[arr.size() - 1];
}},
{"length", [](const func_args & args) -> value {
args.ensure_vals<value_array>();
const auto & arr = args.get_pos(0)->as_array();
return mk_val<value_int>(static_cast<int64_t>(arr.size()));
}},
{"slice", [](const func_args & args) -> value {
args.ensure_count(1, 4);
args.ensure_vals<value_array, value_int, value_int, value_int>(true, true, false, false);
auto val = args.get_pos(0);
auto arg0 = args.get_pos(1);
auto arg1 = args.get_pos(2, mk_val<value_undefined>());
auto arg2 = args.get_pos(3, mk_val<value_undefined>());
int64_t start, stop, step;
if (args.count() == 1) {
start = 0;
stop = arg0->as_int();
step = 1;
} else if (args.count() == 2) {
start = arg0->as_int();
stop = arg1->as_int();
step = 1;
} else {
start = arg0->as_int();
stop = arg1->as_int();
step = arg2->as_int();
}
if (step == 0) {
throw raised_exception("slice step cannot be zero");
}
auto arr = slice(val->as_array(), start, stop, step);
return is_val<value_tuple>(val) ? mk_val<value_tuple>(std::move(arr)) : mk_val<value_array>(std::move(arr));
}},
{"selectattr", selectattr<false>},
{"select", selectattr<false>},
{"rejectattr", selectattr<true>},
{"reject", selectattr<true>},
{"join", [](const func_args & args) -> value {
args.ensure_count(1, 3);
if (!is_val<value_array>(args.get_pos(0))) {
throw raised_exception("join() first argument must be an array");
}
value val_delim = args.get_kwarg_or_pos("d", 1);
value attribute = args.get_kwarg_or_pos("attribute", 2);
const auto & arr = args.get_pos(0)->as_array();
const bool attr_is_int = is_val<value_int>(attribute);
if (!attribute->is_undefined() && !is_val<value_string>(attribute) && !attr_is_int) {
throw raised_exception("join() attribute must be string or integer");
}
const int64_t attr_int = attr_is_int ? attribute->as_int() : 0;
const std::string delim = val_delim->is_undefined() ? "" : val_delim->as_string().str();
std::string result;
for (size_t i = 0; i < arr.size(); ++i) {
value val_arr = arr[i];
if (!attribute->is_undefined()) {
if (attr_is_int && is_val<value_array>(val_arr)) {
val_arr = val_arr->at(attr_int);
} else if (!attr_is_int && is_val<value_object>(val_arr)) {
val_arr = val_arr->at(attribute);
}
}
if (!is_val<value_string>(val_arr) && !is_val<value_int>(val_arr) && !is_val<value_float>(val_arr)) {
throw raised_exception("join() can only join arrays of strings or numerics");
}
result += val_arr->as_string().str();
if (i < arr.size() - 1) {
result += delim;
}
}
return mk_val<value_string>(result);
}},
{"string", [](const func_args & args) -> value {
args.ensure_vals<value_array>();
if (args.ctx.is_get_stats) {
// mark as used (recursively) for stats
auto val_input = args.get_pos(0);
value_t::stats_t::mark_used(const_cast<value&>(val_input), true);
}
return mk_val<value_string>(args.get_pos(0)->as_string());
}},
{"tojson", tojson},
{"map", [](const func_args & args) -> value {
args.ensure_count(2);
if (!is_val<value_array>(args.get_pos(0))) {
throw raised_exception("map: first argument must be an array");
}
if (!is_val<value_kwarg>(args.get_args().at(1))) {
throw not_implemented_exception("map: filter-mapping not implemented");
}
value val = args.get_pos(0);
value attribute = args.get_kwarg_or_pos("attribute", 1);
const bool attr_is_int = is_val<value_int>(attribute);
if (!is_val<value_string>(attribute) && !attr_is_int) {
throw raised_exception("map: attribute must be string or integer");
}
const int64_t attr_int = attr_is_int ? attribute->as_int() : 0;
value default_val = args.get_kwarg("default", mk_val<value_undefined>());
auto out = mk_val<value_array>();
auto arr = val->as_array();
for (const auto & item : arr) {
value attr_val;
if (attr_is_int) {
attr_val = is_val<value_array>(item) ? item->at(attr_int, default_val) : default_val;
} else {
attr_val = is_val<value_object>(item) ? item->at(attribute, default_val) : default_val;
}
out->push_back(attr_val);
}
return is_val<value_tuple>(val) ? mk_val<value_tuple>(std::move(out->as_array())) : out;
}},
{"append", [](const func_args & args) -> value {
args.ensure_count(2);
if (!is_val<value_array>(args.get_pos(0))) {
throw raised_exception("append: first argument must be an array");
}
const value_array_t * arr = cast_val<value_array>(args.get_pos(0));
// need to use const_cast here to modify the array
value_array_t * arr_editable = const_cast<value_array_t *>(arr);
arr_editable->push_back(args.get_pos(1));
return args.get_pos(0);
}},
{"pop", [](const func_args & args) -> value {
args.ensure_count(1, 2);
args.ensure_vals<value_array, value_int>(true, false);
int64_t index = args.count() == 2 ? args.get_pos(1)->as_int() : -1;
const value_array_t * arr = cast_val<value_array>(args.get_pos(0));
// need to use const_cast here to modify the array
value_array_t * arr_editable = const_cast<value_array_t *>(arr);
return arr_editable->pop_at(index);
}},
{"sort", [](const func_args & args) -> value {
args.ensure_count(1, 4);
if (!is_val<value_array>(args.get_pos(0))) {
throw raised_exception("sort: first argument must be an array");
}
value val = args.get_pos(0);
value val_reverse = args.get_kwarg_or_pos("reverse", 1);
value val_case = args.get_kwarg_or_pos("case_sensitive", 2);
value attribute = args.get_kwarg_or_pos("attribute", 3);
// FIXME: sorting is currently always case sensitive
//const bool case_sensitive = val_case->as_bool(); // undefined == false
const bool reverse = val_reverse->as_bool(); // undefined == false
const bool attr_is_int = is_val<value_int>(attribute);
const int64_t attr_int = attr_is_int ? attribute->as_int() : 0;
std::vector<value> arr = val->as_array(); // copy
std::sort(arr.begin(), arr.end(),[&](const value & a, const value & b) {
value val_a = a;
value val_b = b;
if (!attribute->is_undefined()) {
if (attr_is_int && is_val<value_array>(a) && is_val<value_array>(b)) {
val_a = a->at(attr_int);
val_b = b->at(attr_int);
} else if (!attr_is_int && is_val<value_object>(a) && is_val<value_object>(b)) {
val_a = a->at(attribute);
val_b = b->at(attribute);
} else {
throw raised_exception("sort: unsupported object attribute comparison between " + a->type() + " and " + b->type());
}
}
return value_compare(val_a, val_b, reverse ? value_compare_op::gt : value_compare_op::lt);
});
return is_val<value_tuple>(val) ? mk_val<value_tuple>(std::move(arr)) : mk_val<value_array>(std::move(arr));
}},
{"reverse", [](const func_args & args) -> value {
args.ensure_vals<value_array>();
value val = args.get_pos(0);
std::vector<value> arr = val->as_array(); // copy
std::reverse(arr.begin(), arr.end());
return is_val<value_tuple>(val) ? mk_val<value_tuple>(std::move(arr)) : mk_val<value_array>(std::move(arr));
}},
{"unique", [](const func_args &) -> value {
throw not_implemented_exception("Array unique builtin not implemented");
}},
};
return builtins;
}
const func_builtins & value_object_t::get_builtins() const {
if (!has_builtins) {
static const func_builtins no_builtins = {};
return no_builtins;
}
static const func_builtins builtins = {
// {"default", default_value}, // cause issue with gpt-oss
{"get", [](const func_args & args) -> value {
args.ensure_count(2, 3);
if (!is_val<value_object>(args.get_pos(0))) {
throw raised_exception("get: first argument must be an object");
}
if (!is_val<value_string>(args.get_pos(1))) {
throw raised_exception("get: second argument must be a string (key)");
}
value default_val = mk_val<value_none>();
if (args.count() == 3) {
default_val = args.get_pos(2);
}
const value obj = args.get_pos(0);
const value key = args.get_pos(1);
return obj->at(key, default_val);
}},
{"keys", [](const func_args & args) -> value {
args.ensure_vals<value_object>();
const auto & obj = args.get_pos(0)->as_ordered_object();
auto result = mk_val<value_array>();
for (const auto & pair : obj) {
result->push_back(pair.first);
}
return result;
}},
{"values", [](const func_args & args) -> value {
args.ensure_vals<value_object>();
const auto & obj = args.get_pos(0)->as_ordered_object();
auto result = mk_val<value_array>();
for (const auto & pair : obj) {
result->push_back(pair.second);
}
return result;
}},
{"items", [](const func_args & args) -> value {
args.ensure_vals<value_object>();
const auto & obj = args.get_pos(0)->as_ordered_object();
auto result = mk_val<value_array>();
for (const auto & pair : obj) {
auto item = mk_val<value_tuple>(pair);
result->push_back(std::move(item));
}
return result;
}},
{"tojson", tojson},
{"string", [](const func_args & args) -> value {
args.ensure_vals<value_object>();
if (args.ctx.is_get_stats) {
// mark as used (recursively) for stats
auto val_input = args.get_pos(0);
value_t::stats_t::mark_used(const_cast<value&>(val_input), true);
}
return mk_val<value_string>(args.get_pos(0)->as_string());
}},
{"length", [](const func_args & args) -> value {
args.ensure_vals<value_object>();
const auto & obj = args.get_pos(0)->as_ordered_object();
return mk_val<value_int>(static_cast<int64_t>(obj.size()));
}},
{"tojson", [](const func_args & args) -> value {
args.ensure_vals<value_object>();
// use global to_json
return global_builtins().at("tojson")(args);
}},
{"dictsort", [](const func_args & args) -> value {
value val_input = args.get_pos(0);
value val_case = args.get_kwarg_or_pos("case_sensitive", 1);
value val_by = args.get_kwarg_or_pos("by", 2);
value val_reverse = args.get_kwarg_or_pos("reverse", 3);
// FIXME: sorting is currently always case sensitive
//const bool case_sensitive = val_case->as_bool(); // undefined == false
const bool reverse = val_reverse->as_bool(); // undefined == false
const bool by_value = is_val<value_string>(val_by) && val_by->as_string().str() == "value" ? true : false;
auto result = mk_val<value_object>(val_input); // copy
std::sort(result->val_obj.begin(), result->val_obj.end(), [&](const auto & a, const auto & b) {
if (by_value) {
return value_compare(a.second, b.second, reverse ? value_compare_op::gt : value_compare_op::lt);
} else {
return value_compare(a.first, b.first, reverse ? value_compare_op::gt : value_compare_op::lt);
}
});
return result;
}},
{"join", [](const func_args &) -> value {
throw not_implemented_exception("object join not implemented");
}},
};
return builtins;
}
const func_builtins & value_none_t::get_builtins() const {
static const func_builtins builtins = {
{"default", default_value},
{"tojson", tojson},
{"string", [](const func_args &) -> value {
return mk_val<value_string>("None");
}},
{"safe", [](const func_args &) -> value {
return mk_val<value_string>("None");
}},
{"strip", [](const func_args &) -> value {
return mk_val<value_string>("None");
}},
{"items", empty_value_fn<value_array>},
{"map", empty_value_fn<value_array>},
{"reject", empty_value_fn<value_array>},
{"rejectattr", empty_value_fn<value_array>},
{"select", empty_value_fn<value_array>},
{"selectattr", empty_value_fn<value_array>},
{"unique", empty_value_fn<value_array>},
};
return builtins;
}
const func_builtins & value_undefined_t::get_builtins() const {
static const func_builtins builtins = {
{"default", default_value},
{"capitalize", empty_value_fn<value_string>},
{"first", empty_value_fn<value_undefined>},
{"items", empty_value_fn<value_array>},
{"join", empty_value_fn<value_string>},
{"last", empty_value_fn<value_undefined>},
{"length", empty_value_fn<value_int>},
{"list", empty_value_fn<value_array>},
{"lower", empty_value_fn<value_string>},
{"map", empty_value_fn<value_array>},
{"max", empty_value_fn<value_undefined>},
{"min", empty_value_fn<value_undefined>},
{"reject", empty_value_fn<value_array>},
{"rejectattr", empty_value_fn<value_array>},
{"replace", empty_value_fn<value_string>},
{"reverse", empty_value_fn<value_array>},
{"safe", empty_value_fn<value_string>},
{"select", empty_value_fn<value_array>},
{"selectattr", empty_value_fn<value_array>},
{"sort", empty_value_fn<value_array>},
{"string", empty_value_fn<value_string>},
{"strip", empty_value_fn<value_string>},
{"sum", empty_value_fn<value_int>},
{"title", empty_value_fn<value_string>},
{"truncate", empty_value_fn<value_string>},
{"unique", empty_value_fn<value_array>},
{"upper", empty_value_fn<value_string>},
{"wordcount", empty_value_fn<value_int>},
};
return builtins;
}
//////////////////////////////////
static value from_json(const nlohmann::ordered_json & j, bool mark_input) {
if (j.is_null()) {
return mk_val<value_none>();
} else if (j.is_boolean()) {
return mk_val<value_bool>(j.get<bool>());
} else if (j.is_number_integer()) {
return mk_val<value_int>(j.get<int64_t>());
} else if (j.is_number_float()) {
return mk_val<value_float>(j.get<double>());
} else if (j.is_string()) {
auto str = mk_val<value_string>(j.get<std::string>());
if (mark_input) {
str->mark_input();
}
return str;
} else if (j.is_array()) {
auto arr = mk_val<value_array>();
for (const auto & item : j) {
arr->push_back(from_json(item, mark_input));
}
return arr;
} else if (j.is_object()) {
auto obj = mk_val<value_object>();
for (auto it = j.begin(); it != j.end(); ++it) {
obj->insert(it.key(), from_json(it.value(), mark_input));
}
return obj;
} else {
throw std::runtime_error("Unsupported JSON value type");
}
}
// compare operator for value_t
bool value_compare(const value & a, const value & b, value_compare_op op) {
auto cmp = [&]() {
// compare numeric types
if ((is_val<value_int>(a) || is_val<value_float>(a)) &&
(is_val<value_int>(b) || is_val<value_float>(b))){
try {
if (op == value_compare_op::eq) {
return a->as_float() == b->as_float();
} else if (op == value_compare_op::ge) {
return a->as_float() >= b->as_float();
} else if (op == value_compare_op::gt) {
return a->as_float() > b->as_float();
} else if (op == value_compare_op::lt) {
return a->as_float() < b->as_float();
} else if (op == value_compare_op::ne) {
return a->as_float() != b->as_float();
} else {
throw std::runtime_error("Unsupported comparison operator for numeric types");
}
} catch (...) {}
}
// compare string and number
// TODO: not sure if this is the right behavior
if ((is_val<value_string>(b) && (is_val<value_int>(a) || is_val<value_float>(a))) ||
(is_val<value_string>(a) && (is_val<value_int>(b) || is_val<value_float>(b))) ||
(is_val<value_string>(a) && is_val<value_string>(b))) {
try {
if (op == value_compare_op::eq) {
return a->as_string().str() == b->as_string().str();
} else if (op == value_compare_op::ge) {
return a->as_string().str() >= b->as_string().str();
} else if (op == value_compare_op::gt) {
return a->as_string().str() > b->as_string().str();
} else if (op == value_compare_op::lt) {
return a->as_string().str() < b->as_string().str();
} else if (op == value_compare_op::ne) {
return a->as_string().str() != b->as_string().str();
} else {
throw std::runtime_error("Unsupported comparison operator for string/number types");
}
} catch (...) {}
}
// compare boolean simple
if (is_val<value_bool>(a) && is_val<value_bool>(b)) {
if (op == value_compare_op::eq) {
return a->as_bool() == b->as_bool();
} else if (op == value_compare_op::ne) {
return a->as_bool() != b->as_bool();
} else {
throw std::runtime_error("Unsupported comparison operator for bool type");
}
}
// compare by type
if (a->type() != b->type()) {
return false;
}
return false;
};
auto result = cmp();
JJ_DEBUG("Comparing types: %s and %s result=%d", a->type().c_str(), b->type().c_str(), result);
return result;
}
template<>
void global_from_json(context & ctx, const nlohmann::ordered_json & json_obj, bool mark_input) {
// printf("global_from_json: %s\n" , json_obj.dump(2).c_str());
if (json_obj.is_null() || !json_obj.is_object()) {
throw std::runtime_error("global_from_json: input JSON value must be an object");
}
for (auto it = json_obj.begin(); it != json_obj.end(); ++it) {
JJ_DEBUG("global_from_json: setting key '%s'", it.key().c_str());
ctx.set_val(it.key(), from_json(it.value(), mark_input));
}
}
// recursively convert value to JSON string
// TODO: avoid circular references
static void value_to_json_internal(std::ostringstream & oss, const value & val, int curr_lvl, int indent, const std::string_view item_sep, const std::string_view key_sep) {
auto indent_str = [indent, curr_lvl]() -> std::string {
return (indent > 0) ? std::string(curr_lvl * indent, ' ') : "";
};
auto newline = [indent]() -> std::string {
return (indent >= 0) ? "\n" : "";
};
if (is_val<value_none>(val) || val->is_undefined()) {
oss << "null";
} else if (is_val<value_bool>(val)) {
oss << (val->as_bool() ? "true" : "false");
} else if (is_val<value_int>(val)) {
oss << val->as_int();
} else if (is_val<value_float>(val)) {
oss << val->as_float();
} else if (is_val<value_string>(val)) {
oss << "\"";
for (char c : val->as_string().str()) {
switch (c) {
case '"': oss << "\\\""; break;
case '\\': oss << "\\\\"; break;
case '\b': oss << "\\b"; break;
case '\f': oss << "\\f"; break;
case '\n': oss << "\\n"; break;
case '\r': oss << "\\r"; break;
case '\t': oss << "\\t"; break;
default:
if (static_cast<unsigned char>(c) < 0x20) {
char buf[7];
snprintf(buf, sizeof(buf), "\\u%04x", static_cast<unsigned char>(c));
oss << buf;
} else {
oss << c;
}
}
}
oss << "\"";
} else if (is_val<value_array>(val)) {
const auto & arr = val->as_array();
oss << "[";
if (!arr.empty()) {
oss << newline();
for (size_t i = 0; i < arr.size(); ++i) {
oss << indent_str() << (indent > 0 ? std::string(indent, ' ') : "");
value_to_json_internal(oss, arr[i], curr_lvl + 1, indent, item_sep, key_sep);
if (i < arr.size() - 1) {
oss << item_sep;
}
oss << newline();
}
oss << indent_str();
}
oss << "]";
} else if (is_val<value_object>(val)) {
const auto & obj = val->as_ordered_object(); // IMPORTANT: need to keep exact order
oss << "{";
if (!obj.empty()) {
oss << newline();
size_t i = 0;
for (const auto & pair : obj) {
oss << indent_str() << (indent > 0 ? std::string(indent, ' ') : "");
value_to_json_internal(oss, mk_val<value_string>(pair.first->as_string().str()), curr_lvl + 1, indent, item_sep, key_sep);
oss << key_sep;
value_to_json_internal(oss, pair.second, curr_lvl + 1, indent, item_sep, key_sep);
if (i < obj.size() - 1) {
oss << item_sep;
}
oss << newline();
++i;
}
oss << indent_str();
}
oss << "}";
} else {
oss << "null";
}
}
std::string value_to_json(const value & val, int indent, const std::string_view item_sep, const std::string_view key_sep) {
std::ostringstream oss;
value_to_json_internal(oss, val, 0, indent, item_sep, key_sep);
JJ_DEBUG("value_to_json: result=%s", oss.str().c_str());
return oss.str();
}
// TODO: avoid circular references
std::string value_to_string_repr(const value & val) {
if (is_val<value_string>(val)) {
const std::string val_str = val->as_string().str();
if (val_str.find('\'') != std::string::npos) {
return value_to_json(val);
} else {
return "'" + val_str + "'";
}
} else {
return val->as_repr();
}
}
// stats utility
void value_t::stats_t::mark_used(value & val, bool deep) {
val->stats.used = true;
if (deep) {
if (is_val<value_array>(val)) {
for (auto & item : val->val_arr) {
mark_used(item, deep);
}
} else if (is_val<value_object>(val)) {
for (auto & pair : val->val_obj) {
mark_used(pair.first, deep);
mark_used(pair.second, deep);
}
}
}
}
} // namespace jinja
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