DracoBench Report: z-ai/glm-5.2

By Suite

Suite	Cases	Passed	Pass rate	Avg latency	Cost
`chinese_writing`	4	4	100.0%	17714 ms	$0.012572
`coding`	28	27	96.4%	16624 ms	$0.089298
`debugging`	19	19	100.0%	7365 ms	$0.014943
`instruction_following`	6	6	100.0%	10481 ms	$0.012786
`rag_long_context`	18	17	94.4%	6052 ms	$0.015410
`reasoning`	25	25	100.0%	6946 ms	$0.024649

Failure Examples

challenge-rag-006

Suite: rag_long_context

Finish: stop

Prompt

只根据资料回答。

资料：一次失败分析显示，模型输出了 key = int(parts[1])，但测试数据里的 key 是字符串 a、b、c。报告认为这是“擅自补类型假设”，不是 token 截断。

问题：这次失败的根因是什么？

Standard Answer / Scoring Expectation

Required phrases: key
At least one from each group: 字符串 / 类型不匹配；整数 / int；类型假设 / 假设 key 为整数 / 假设 key 是整数 / key 为整数类型
Length guidance (diagnostic only): min=n/a, max=120

Mistake Analysis

Failure type: missing_required_info

模型回答没有覆盖评分规则要求的完整证据链。必须出现的关键信息：key；每组至少一个依据表达：字符串 / 类型不匹配；整数 / int。这通常表示答案方向可能对，但没有把资料依据说清楚。

Scorer Details

{
  "missing": [
    "key"
  ],
  "missing_any": [
    [
      "字符串",
      "类型不匹配"
    ],
    [
      "整数",
      "int"
    ]
  ],
  "present_forbidden": [],
  "char_count": 20,
  "length_ok": true,
  "length_scored": false
}

Output

这次失败的根因是模型“擅自补类型假设”。

challenge-coding-015

Suite: coding

Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(line: str) -> list[str]，解析一行简化 CSV：逗号分隔；字段可以用双引号包裹；引号内逗号保留；引号内两个连续双引号表示一个双引号；空字段保留；空格是普通字符，不要自动 trim。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve('a,"b,c",d') == ['a', 'b,c', 'd']
assert solution.solve('"a""b",,x') == ['a"b', '', 'x']
assert solution.solve('  a ," b " ') == ['  a ', ' b  ']

Mistake Analysis

Failure type: code_assertion_failure

CSV 解析在引号字段结束后只接受紧跟逗号，没有把引号后的普通空格作为字段内容保留下来。第三个测试里 `" b " ` 的结束引号后还有一个空格，期望字段是 ` b `；模型输出漏掉了尾随空格，违反了题目“空格是普通字符，不要 trim”的要求。

Scorer Details

{
  "returncode": 1,
  "stdout": "",
  "stderr": "Traceback (most recent call last):\n  File \"/var/folders/x_/4cht1kfj1_j31gdv5w01sgmw0000gn/T/dracobench-code-yfxzr0qk/test_solution.py\", line 5, in <module>\n    assert solution.solve('  a ,\" b \" ') == ['  a ', ' b  ']\nAssertionError\n"
}

Output

```python
def solve(line: str) -> list[str]:
    fields = []
    i = 0
    n = len(line)
    while i <= n:
        field_chars = []
        if i < n and line[i] == '"':
            i += 1
            while i < n:
                if line[i] == '"':
                    if i + 1 < n and line[i + 1] == '"':
                        field_chars.append('"')
                        i += 2
                    else:
                        i += 1
                        break
                else:
                    field_chars.append(line[i])
                    i += 1
            fields.append(''.join(field_chars))
        else:
            while i < n and line[i] != ',':
                field_chars.append(line[i])
                i += 1
            fields.append(''.join(field_chars))
        if i < n and line[i] == ',':
            i += 1
        else:
            break
    return fields
```

All Questions & Answers

challenge-coding-001 PASS

Suite: coding · Latency: 8077 ms · Cost: $0.000880 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(lines: list[str]) -> dict。lines 是简化 INI：空行和以 # 开头的行忽略；[section] 开始新 section；key=value 写入当前 section；key/value 两侧空白要去掉；同一 section 内重复 key 后者覆盖前者。返回嵌套 dict。

Standard Answer / Scoring Expectation

Reference tests:
lines = ['# comment', '[db]', ' host = localhost ', 'port=5432', '', '[feature]', 'enabled=true', 'enabled = false']
assert solution.solve(lines) == {'db': {'host': 'localhost', 'port': '5432'}, 'feature': {'enabled': 'false'}}
assert solution.solve(['[x]', 'a=1', 'a=2', '[y]', 'b = hi']) == {'x': {'a': '2'}, 'y': {'b': 'hi'}}

Output

```python
def solve(lines: list[str]) -> dict:
    result = {}
    current = None
    for line in lines:
        line = line.strip()
        if not line or line.startswith('#'):
            continue
        if line.startswith('[') and line.endswith(']'):
            section = line[1:-1].strip()
            current = section
            if current not in result:
                result[current] = {}
        else:
            key, _, value = line.partition('=')
            key = key.strip()
            value = value.strip()
            if current is None:
                current = ''
                result[current] = {}
            result[current][key] = value
    return result
```

challenge-coding-002 PASS

Suite: coding · Latency: 14380 ms · Cost: $0.003302 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(events: list[str]) -> int。事件格式："<id> credit <amount>" 增加余额，"<id> debit <amount>" 减少余额，"rev <id>" 撤销此前尚未撤销过的同 id 事件。重复交易 id 只保留第一次，未知撤销忽略。返回最终余额。

Standard Answer / Scoring Expectation

Reference tests:
events = ['a credit 100', 'b debit 40', 'a credit 999', 'rev b', 'c debit 10']
assert solution.solve(events) == 90
events = ['x debit 5', 'rev y', 'rev x', 'rev x', 'z credit 7']
assert solution.solve(events) == 7

Output

```python
def solve(events: list[str]) -> int:
    balance = 0
    seen = {}
    revoked = set()

    for ev in events:
        parts = ev.split()
        if parts[0] == "rev":
            tid = parts[1]
            if tid in seen and tid not in revoked:
                op, amt = seen[tid]
                balance += amt if op == "debit" else -amt
                revoked.add(tid)
            continue

        tid, op, amt = parts[0], parts[1], int(parts[2])
        if tid in seen:
            continue

        seen[tid] = (op, amt)
        balance += amt if op == "credit" else -amt

    return balance
```

challenge-coding-003 PASS

Suite: coding · Latency: 7558 ms · Cost: $0.001464 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(deps: dict[str, list[str]]) -> list[list[str]]。deps 表示 task -> prerequisites。返回可并行执行的拓扑层，每层任务按字典序排序；如果存在环，返回空列表。所有只出现在 prerequisites 中的任务也要包含。

Standard Answer / Scoring Expectation

Reference tests:
deps = {'build': ['lint', 'test'], 'test': ['install'], 'lint': ['install']}
assert solution.solve(deps) == [['install'], ['lint', 'test'], ['build']]
assert solution.solve({'a': ['b'], 'b': ['a']}) == []
assert solution.solve({'deploy': ['build'], 'build': []}) == [['build'], ['deploy']]

Output

```python
from collections import defaultdict, deque

def solve(deps: dict[str, list[str]]) -> list[list[str]]:
    # Build full node set
    nodes = set(deps.keys())
    for prereqs in deps.values():
        nodes.update(prereqs)

    # adj: prerequisite -> tasks that depend on it
    # indegree: number of prerequisites for each task
    indegree = {n: 0 for n in nodes}
    adj = defaultdict(list)
    for task, prereqs in deps.items():
        for p in prereqs:
            adj[p].append(task)
            indegree[task] += 1

    layers = []
    current = sorted([n for n in nodes if indegree[n] == 0])
    processed = 0

    while current:
        layers.append(current)
        processed += len(current)
        next_layer = []
        for node in current:
            for nb in adj[node]:
                indegree[nb] -= 1
                if indegree[nb] == 0:
                    next_layer.append(nb)
        current = sorted(next_layer)

    if processed != len(nodes):
        return []

    return layers
```

challenge-coding-004 PASS

Suite: coding · Latency: 4497 ms · Cost: $0.001018 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(capacity: int, ops: list[str]) -> list[int]，模拟 LRU cache。ops 包含 "put key value" 和 "get key"。get 返回 value，不存在返回 -1。put 已存在 key 要更新并变成最近使用。容量为 0 时所有 get 都返回 -1。

Standard Answer / Scoring Expectation

Reference tests:
ops = ['put a 1', 'put b 2', 'get a', 'put c 3', 'get b', 'get a', 'get c']
assert solution.solve(2, ops) == [1, -1, 1, 3]
assert solution.solve(0, ['put a 1', 'get a']) == [-1]
assert solution.solve(1, ['put a 1', 'put a 2', 'get a']) == [2]

Output

```python
from collections import OrderedDict

def solve(capacity: int, ops: list[str]) -> list[int]:
    cache = OrderedDict()
    results = []
    for op in ops:
        parts = op.split()
        if parts[0] == "get":
            key = parts[1]
            if capacity == 0 or key not in cache:
                results.append(-1)
            else:
                cache.move_to_end(key)
                results.append(cache[key])
        elif parts[0] == "put":
            key = parts[1]
            value = int(parts[2])
            if capacity == 0:
                continue
            if key in cache:
                cache.move_to_end(key)
                cache[key] = value
            else:
                if len(cache) >= capacity:
                    cache.popitem(last=False)
                cache[key] = value
    return results
```

challenge-coding-005 PASS

Suite: coding · Latency: 5309 ms · Cost: $0.000657 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(base: dict, patch: dict) -> dict，执行 JSON Merge Patch：patch 中值为 None 表示删除该 key；两个值都是 dict 时递归合并；其他值覆盖。不能修改输入对象。

Standard Answer / Scoring Expectation

Reference tests:
base = {'a': 1, 'b': {'x': 1, 'y': 2}, 'c': 3}
patch = {'b': {'y': None, 'z': 4}, 'c': None}
assert solution.solve(base, patch) == {'a': 1, 'b': {'x': 1, 'z': 4}}
assert base == {'a': 1, 'b': {'x': 1, 'y': 2}, 'c': 3}
assert solution.solve({'a': {'b': 1}}, {'a': 5}) == {'a': 5}

Output

```python
def solve(base: dict, patch: dict) -> dict:
    import copy

    result = copy.deepcopy(base)

    def merge(target, patch):
        for key, value in patch.items():
            if value is None:
                target.pop(key, None)
            elif isinstance(value, dict) and isinstance(target.get(key), dict):
                merge(target[key], value)
            else:
                target[key] = copy.deepcopy(value)

    merge(result, patch)
    return result
```

challenge-coding-006 PASS

Suite: coding · Latency: 7603 ms · Cost: $0.001173 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(text: str) -> int，把时长字符串转换成毫秒。支持整数单位 d、h、m、s、ms，可有空格，单位可重复，顺序任意。例如 "1h 30m 500ms"。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve('1h 30m 500ms') == 5400500
assert solution.solve('2d 1h 2s') == 176402000
assert solution.solve('100ms 2s 3ms') == 2103

Output

```python
import re

def solve(text: str) -> int:
    factors = {
        "ms": 1,
        "s": 1000,
        "m": 60_000,
        "h": 3_600_000,
        "d": 86_400_000,
    }
    total = 0
    for value, unit in re.findall(r"(\d+)(ms|d|h|m|s)", text):
        total += int(value) * factors[unit]
    return total
```

challenge-coding-007 PASS

Suite: coding · Latency: 5994 ms · Cost: $0.001100 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(s: str) -> bool，检查括号 ()[]{} 是否配对。单引号或双引号内部的括号忽略；反斜杠会转义引号。输入字符串可以包含普通字符。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve('{a:[(1)]}') is True
assert solution.solve("{'x': '(]'}") is True
assert solution.solve("['unterminated]") is False
assert solution.solve('([)]') is False
assert solution.solve("\"paren \\\" ) still quoted\"") is True

Output

```python
def solve(s: str) -> bool:
    pairs = {')': '(', ']': '[', '}': '{'}
    opening = set(pairs.values())
    stack = []
    quote = None
    i = 0
    n = len(s)
    while i < n:
        c = s[i]
        if quote is not None:
            if c == '\\':
                i += 2
                continue
            if c == quote:
                quote = None
            i += 1
            continue
        if c in ('"', "'"):
            quote = c
            i += 1
            continue
        if c in opening:
            stack.append(c)
        elif c in pairs:
            if not stack or stack[-1] != pairs[c]:
                return False
            stack.pop()
        i += 1
    return quote is None and not stack
```

challenge-coding-008 PASS

Suite: coding · Latency: 4719 ms · Cost: $0.000740 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(rows: list[dict]) -> list[dict]。每行有 user、ts、value。对每个 user 保留 ts 最大的一行；若 ts 相同，保留在输入中更靠后的行。输出按 user 字典序排序。

Standard Answer / Scoring Expectation

Reference tests:
rows = [{'user':'b','ts':1,'value':'old'}, {'user':'a','ts':2,'value':'x'}, {'user':'b','ts':3,'value':'new'}]
assert solution.solve(rows) == [{'user':'a','ts':2,'value':'x'}, {'user':'b','ts':3,'value':'new'}]
rows = [{'user':'a','ts':1,'value':'first'}, {'user':'a','ts':1,'value':'second'}]
assert solution.solve(rows) == [{'user':'a','ts':1,'value':'second'}]

Output

```python
from typing import List, Dict

def solve(rows: List[Dict]) -> List[Dict]:
    best = {}
    for idx, row in enumerate(rows):
        u = row["user"]
        if u not in best:
            best[u] = (row["ts"], idx, row)
        else:
            ts, i, _ = best[u]
            if row["ts"] > ts or (row["ts"] == ts and idx > i):
                best[u] = (row["ts"], idx, row)
    return [best[u][2] for u in sorted(best)]
```

challenge-debugging-001 PASS

Suite: debugging · Latency: 6649 ms · Cost: $0.001397 · Finish: stop

Prompt

下面代码在 total 之后再次读取数据会变成空列表。请指出根因，并给出最小修复。最后单独一行写 FIX: <修复后的第一行函数定义>。

```python
def summarize(items=iter([1, 2, 3])):
    return sum(items)
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*def\s+summarize\(items=None\)\s*:

Output

**根因**：默认参数 `iter([1, 2, 3])` 在函数定义时只求值一次，且迭代器是一次性的。第一次调用 `summarize()` 会消费该迭代器，之后再次调用时默认值仍是同一个已耗尽的迭代器，因此返回 `0`（空列表求和）。

**最小修复**：将默认值改为 `None`，在函数体内惰性创建迭代器。

```python
def summarize(items=None):
    if items is None:
        items = iter([1, 2, 3])
    return sum(items)
```

FIX: def summarize(items=None):

challenge-debugging-002 PASS

Suite: debugging · Latency: 4223 ms · Cost: $0.000872 · Finish: stop

Prompt

下面代码期望统计每个用户的事件数，但所有用户计数会互相影响。请指出根因，并给出最小修复。最后单独一行写 FIX: <修复后的 defaultdict 初始化行>。

```python
from collections import defaultdict
shared = {'seen': []}
counts = defaultdict(lambda: shared)

def add(user, event):
    counts[user]['seen'].append(event)
    return counts[user]
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*counts\s*=\s*defaultdict\(lambda\s*:\s*\{'seen'\s*:\s*\[\]\}\)\s*`?

Output

根因：`defaultdict` 的工厂函数返回的是同一个全局对象 `shared`，因此所有缺失键都指向同一个字典，导致计数互相影响。

最小修复：让工厂函数每次创建新的字典对象。

FIX: counts = defaultdict(lambda: {'seen': []})

challenge-debugging-003 PASS

Suite: debugging · Latency: 10175 ms · Cost: $0.001425 · Finish: stop

Prompt

下面分页代码会漏掉最后不足 page_size 的一页。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 range 行>。

```python
def pages(items, page_size):
    out = []
    for start in range(0, len(items) - page_size, page_size):
        out.append(items[start:start + page_size])
    return out
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*for\s+start\s+in\s+range\(0,\s*len\(items\),\s*page_size\)\s*:

Output

**Bug:** `range` 的 stop 参数设为 `len(items) - page_size`，导致最后不足 `page_size` 的那一段起始索引未被遍历，从而漏掉最后一页。

**最小修复:** 将 stop 改为 `len(items)`，切片会自动处理越界，无需额外判断。

FIX: `    for start in range(0, len(items), page_size):`

challenge-debugging-004 PASS

Suite: debugging · Latency: 20024 ms · Cost: $0.000471 · Finish: stop

Prompt

下面代码期望把数字字符串按数值排序，但结果是字典序。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 return 行>。

```python
def order(ids):
    return sorted(ids)
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*return\s+sorted\(ids,\s*key\s*=\s*int\)\s*`?

Output

Bug：`sorted(ids)` 对字符串按字典序排序，而非按数值大小。

最小修复：按整数键排序。

```python
def order(ids):
    return sorted(ids, key=int)
```

FIX: return sorted(ids, key=int)

challenge-debugging-005 PASS

Suite: debugging · Latency: 6431 ms · Cost: $0.001059 · Finish: stop

Prompt

下面缓存装饰器会把不同参数的调用混在一起。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 key 赋值行>。

```python
cache = {}
def memo(fn):
    def wrapper(*args, **kwargs):
        key = fn.__name__
        if key not in cache:
            cache[key] = fn(*args, **kwargs)
        return cache[key]
    return wrapper
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*key\s*=\s*\(fn\.__name__,\s*args,\s*(?:tuple\(sorted\(kwargs\.items\(\)\)\)|frozenset\(kwargs\.items\(\)\))\)\s*`?

Output

Bug：`key` 只用了 `fn.__name__`，没有包含 `args` 和 `kwargs`，所以同一函数不同参数的调用会命中同一个缓存值。

最小修复：把参数也纳入 key。

```python
cache = {}
def memo(fn):
    def wrapper(*args, **kwargs):
        key = (fn.__name__, args, tuple(sorted(kwargs.items())))
        if key not in cache:
            cache[key] = fn(*args, **kwargs)
        return cache[key]
    return wrapper
```

FIX: key = (fn.__name__, args, tuple(sorted(kwargs.items())))

challenge-debugging-006 PASS

Suite: debugging · Latency: 5640 ms · Cost: $0.000578 · Finish: stop

Prompt

下面代码期望浅拷贝列表后独立追加，但原列表也被修改。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 copy 行>。

```python
def append_copy(items, value):
    copied = items
    copied.append(value)
    return copied
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*copied\s*=\s*(?:items\.copy\(\)|items\[:\]|list\(items\))\s*`?

Output

Bug：`copied = items` 只是让 `copied` 指向同一个列表对象，并非浅拷贝，因此 `append` 会修改原列表。

最小修复：将赋值改为真正的浅拷贝。

FIX: copied = items.copy()

challenge-debugging-007 PASS

Suite: debugging · Latency: 7818 ms · Cost: $0.000830 · Finish: stop

Prompt

下面代码期望解析 JSON 字符串，但传入已经是 dict 时会报错。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 data 赋值行>。

```python
import json

def load(payload):
    data = json.loads(payload)
    return data['id']
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*data\s*=\s*(payload\s+if\s+isinstance\(payload,\s*dict\)\s+else\s+json\.loads\(payload\)|json\.loads\(payload\)\s+if\s+isinstance\(payload,\s*\(str,\s*bytes,\s*bytearray\)\)\s+else\s+payload|json\.loads\(payload\)\s+if\s+isinstance\(payload,\s*str\)\s+else\s+payload)\s*`?

Output

**Bug**: `json.loads()` 只接受字符串；当 `payload` 已经是 `dict` 时会抛出 `TypeError`。

**修复思路**: 先判断类型，字符串才解析，否则直接使用。

FIX: `data = json.loads(payload) if isinstance(payload, str) else payload`

challenge-debugging-008 PASS

Suite: debugging · Latency: 15072 ms · Cost: $0.000437 · Finish: stop

Prompt

下面代码期望 finally 后仍保留 try 中返回值，但实际总是返回 None。请指出 bug，并给出最小修复。最后单独一行写 FIX: <要删除或替换的 finally 行说明>。

```python
def read_value():
    try:
        return 42
    finally:
        return None
```

Standard Answer / Scoring Expectation

Accepted answers:
- 删除 finally 中的 return None
- 去掉 finally 的 return None
- 不要在 finally 里 return None
- remove return None
- 去掉 finally 中的 return None
- 删除或替换 finally 中的 return None
- 去掉 finally 中的 `return None`
- 删除或替换 finally 中的 `return None`
- 删除 finally 块中的 `return None`
- 删除 finally 块中的 return None
- 删除 finally 中的 `return None`
- 删除 `finally` 块中的 `return None`
- 删除 `finally` 中的 `return None`
- 删除 `finally: return None`
- 将 `finally:` 中的 `return None` 删除
- finally 中的 return None 删除
- finally: 中的 return None 删除
- 删除 finally 块中的 'return None'
- 删除 finally 子句中的 `return None`
- 删除 finally 子句中的 return None
- delete the line `return None` inside the finally block
- delete the line return None inside the finally block
- finally 块不应包含 return 语句
- finally 块不应包含 return
- finally 不应包含 return

Output

Bug：`finally` 中的 `return None` 会覆盖 `try` 中的返回值。

最小修复：删除 `finally` 中的 `return None`。

FIX: 删除 `return None`

challenge-reasoning-001 PASS

Suite: reasoning · Latency: 2787 ms · Cost: $0.000474 · Finish: stop

Prompt

只回答最终数字：有 A、B、C、D 四个服务。A 每分钟处理 6 个请求，B 比 A 少 2 个，C 是 B 的 2 倍，D 是 A 和 C 的平均值。四个服务 5 分钟一共处理多少请求？

Standard Answer / Scoring Expectation

Answer: 125

Output

challenge-reasoning-002 PASS

Suite: reasoning · Latency: 16175 ms · Cost: $0.002608 · Finish: stop

Prompt

只回答一个字母：五个任务 A、B、C、D、E 排队。A 必须在 B 前，B 必须在 C 前；D 不能在两端；E 必须紧挨在 C 后面。在所有满足条件的队列中，按字典序最小的队列第三个任务是谁？

Standard Answer / Scoring Expectation

Answer: D

Output

challenge-reasoning-003 PASS

Suite: reasoning · Latency: 21357 ms · Cost: $0.000428 · Finish: stop

Prompt

只回答最终数字：一个 4 位二进制数从 1011 开始，先左移一位并只保留低 4 位，再与 0110 做异或，最后转成十进制。结果是多少？

Standard Answer / Scoring Expectation

Answer: 0

Output

challenge-reasoning-004 PASS

Suite: reasoning · Latency: 3200 ms · Cost: $0.000674 · Finish: stop

Prompt

只回答最终数字：一个集合最初为 {1,2,3,4,5}。依次执行：删除所有偶数；加入 6 和 7；把每个元素乘以 2；删除大于 10 的元素。最终集合元素之和是多少？

Standard Answer / Scoring Expectation

Answer: 18

Output

challenge-reasoning-005 PASS

Suite: reasoning · Latency: 8226 ms · Cost: $0.001346 · Finish: stop

Prompt

只回答“可满足”或“不可满足”：有三个布尔变量 x、y、z。约束为：x 或 y 为真；如果 x 为真则 z 为假；如果 y 为真则 z 为真；x 和 y 不能同时为真。是否存在赋值满足全部约束？

Standard Answer / Scoring Expectation

Answer: 可满足

Output

可满足

challenge-rag-001 PASS

Suite: rag_long_context · Latency: 2415 ms · Cost: $0.000406 · Finish: stop

Prompt

只根据资料回答。

资料 A：DracoBench v0.2 的目标是提高区分度，优先增加 coding、debugging、RAG 和 instruction_following 题。
资料 B：DracoBench v0.2 不会默认使用 LLM-as-judge；开放中文写作题只做少量规则校验和人工抽检。
资料 C：v0.2 的 HTML 报告必须展示通过率、成本、reasoning tokens、失败样例和逐题明细。

问题：v0.2 为什么没有把 LLM-as-judge 作为默认判分？

Standard Answer / Scoring Expectation

Required phrases: 人工抽检
At least one from each group: 默认使用 / 默认判分 / 默认采用 / 作为默认判分
Forbidden phrases: 因为成本太高、因为不支持中文
Length guidance (diagnostic only): min=n/a, max=160

Output

根据资料 B，v0.2 开放中文写作题只做少量规则校验和人工抽检，因此没有默认使用 LLM-as-judge。

challenge-rag-002 PASS

Suite: rag_long_context · Latency: 7548 ms · Cost: $0.001359 · Finish: stop

Prompt

只根据资料回答，不要自行补充。

资料：模型 Alpha 在 30 道 challenge 题中通过 24 道，成本 0.08 美元，平均延迟 9 秒。模型 Beta 通过 22 道，成本 0.02 美元，平均延迟 3 秒。资料没有给出两者在多模态任务上的表现。

问题：如果要写低成本高吞吐摘要服务，资料更支持选择哪个模型？另外，多模态表现能否判断？

Standard Answer / Scoring Expectation

Required phrases: Beta、成本、延迟、判断
Forbidden phrases: Alpha 更适合、多模态更强
Length guidance (diagnostic only): min=n/a, max=180

Output

资料更支持选择模型 Beta。因为 Beta 成本更低（0.02 美元 vs 0.08 美元），平均延迟更短（3 秒 vs 9 秒），更符合低成本高吞吐的需求。

多模态表现无法判断，因为资料没有给出两者在多模态任务上的表现。

challenge-rag-003 PASS

Suite: rag_long_context · Latency: 12990 ms · Cost: $0.002307 · Finish: stop

Prompt

只根据资料回答。

资料：一次评测中，K 模型在 smoke set 上 7/7，通过率 100%；在 hard set 上原始结果 47/50，其中 2 题后来被认定为题面歧义，单独复测通过。另有 1 题因 reasoning tokens 用尽而空输出。

问题：更公平的文字结论应该如何描述 K 模型这次 hard set 表现？

Standard Answer / Scoring Expectation

Required phrases: 题面歧义
At least one from each group: 47/50 / 47 题 / 47题；空输出 / 输出为空 / 未输出
Forbidden phrases: 满分、完全失败
Length guidance (diagnostic only): min=n/a, max=240

Output

更公平的文字结论应指出：K 模型在 hard set 上原始结果为 47/50，但其中 2 题因题面歧义复测已通过，另有 1 题因 reasoning tokens 用尽导致空输出（非模型能力本身错误）。若排除题面歧义与 token 限制等非能力因素，其实际有效通过率为 49/50，仅 1 题受限于 token 未能完成。

challenge-rag-004 PASS

Suite: rag_long_context · Latency: 4133 ms · Cost: $0.000499 · Finish: stop

Prompt

只根据资料回答，不要使用资料外知识。

资料：报告字段包括 pass_rate、avg_latency_ms、total_cost、prompt_tokens、completion_tokens、reasoning_tokens。报告不包含模型训练数据来源，也不包含供应商真实利润率。

问题：根据资料，能否从报告判断供应商利润率？

Standard Answer / Scoring Expectation

Required phrases: 不能、不包含、利润率
Forbidden phrases: 可以判断、训练数据
Length guidance (diagnostic only): min=n/a, max=100

Output

不能。资料明确指出报告不包含供应商真实利润率。

challenge-if-001 PASS

Suite: instruction_following · Latency: 6030 ms · Cost: $0.001544 · Finish: stop

Prompt

只输出 JSON 对象，不要 Markdown。字段 status 必须是 "review"；字段 scores 必须是对象，包含 coding、debugging、rag 三个整数；字段 note 必须是不超过 12 个汉字的中文字符串。

Standard Answer / Scoring Expectation

Expected JSON schema:
{
  "type": "object",
  "required": [
    "status",
    "scores",
    "note"
  ],
  "additionalProperties": false,
  "properties": {
    "status": {
      "type": "string",
      "const": "review"
    },
    "scores": {
      "type": "object",
      "required": [
        "coding",
        "debugging",
        "rag"
      ],
      "additionalProperties": false,
      "properties": {
        "coding": {
          "type": "integer"
        },
        "debugging": {
          "type": "integer"
        },
        "rag": {
          "type": "integer"
        }
      }
    },
    "note": {
      "type": "string"
    }
  }
}

Output

{
  "status": "review",
  "scores": {
    "coding": 8,
    "debugging": 7,
    "rag": 9
  },
  "note": "测试评估完成"
}

challenge-if-002 PASS

Suite: instruction_following · Latency: 10039 ms · Cost: $0.001288 · Finish: stop

Prompt

只输出 4 行，不要解释。第 1 行是 BEGIN，第 4 行是 END。第 2 行必须包含“模型评测”，第 3 行必须包含“HTML报告”。不能出现任何项目符号。

Standard Answer / Scoring Expectation

Expected regex pattern:
^\s*BEGIN\s*\n[^\n]*模型评测[^\n]*\n[^\n]*HTML报告[^\n]*\nEND\s*$

Output

BEGIN
模型评测
HTML报告
END

challenge-if-003 PASS

Suite: instruction_following · Latency: 16768 ms · Cost: $0.004222 · Finish: stop

Prompt

只输出一个中文句子，不能超过 28 个汉字。必须同时包含“难题”和“区分度”，不能包含“最强”“吊打”“遥遥领先”。

Standard Answer / Scoring Expectation

Required phrases: 难题、区分度
Forbidden phrases: 最强、吊打、遥遥领先
Length guidance (diagnostic only): min=n/a, max=28

Output

这道难题的区分度很高，能准确筛选出优秀人才。

challenge-zh-writing-001 PASS

Suite: chinese_writing · Latency: 18327 ms · Cost: $0.003104 · Finish: stop

Prompt

写一段不超过 120 个汉字的公众号结论，主题是“模型在简单题满分不代表真实强”。必须包含“简单题”“真实能力”“失败样例”，不能出现“吊打”。

Standard Answer / Scoring Expectation

Required phrases: 简单题、真实能力、失败样例
Forbidden phrases: 吊打
Length guidance (diagnostic only): min=n/a, max=120

Output

总而言之，模型在简单题上拿满分，绝不等于其真实能力足够强大。高分往往掩盖了复杂场景下的短板。我们更应深挖那些隐蔽的失败样例，因为只有直面失败样例，才能客观评估模型的真实能力，不被表面的繁荣误导。

challenge-zh-writing-002 PASS

Suite: chinese_writing · Latency: 23945 ms · Cost: $0.002675 · Finish: stop

Prompt

把下面口语句改写成专业表达，不超过 80 个汉字：这个模型看起来很猛，但一遇到复杂调试就开始掉链子。必须包含“复杂调试”和“稳定性”，不能包含“猛”“掉链子”。

Standard Answer / Scoring Expectation

Required phrases: 复杂调试、稳定性
Forbidden phrases: 猛、掉链子
Length guidance (diagnostic only): min=n/a, max=80

Output

该模型常规性能表现优异，但在复杂调试场景下稳定性不足，易出现性能衰退。

challenge-coding-009 PASS

Suite: coding · Latency: 17762 ms · Cost: $0.000957 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(events: list[dict]) -> dict[str, int]。每个事件包含 user、type、amount；type 为 "add" 或 "remove"。按 user 汇总 add 减 remove 后的库存，结果中去掉库存为 0 的用户，按 key 字典序返回普通 dict。amount 可能是字符串数字。

Standard Answer / Scoring Expectation

Reference tests:
events=[{'user':'b','type':'add','amount':'5'},{'user':'a','type':'add','amount':3},{'user':'b','type':'remove','amount':2},{'user':'a','type':'remove','amount':3}]
assert solution.solve(events) == {'b': 3}
assert solution.solve([]) == {}
assert solution.solve([{'user':'x','type':'remove','amount':'2'}]) == {'x': -2}

Output

```python
def solve(events: list[dict]) -> dict[str, int]:
    inventory = {}
    for event in events:
        user = event["user"]
        amount = int(event["amount"])
        if event["type"] == "add":
            inventory[user] = inventory.get(user, 0) + amount
        elif event["type"] == "remove":
            inventory[user] = inventory.get(user, 0) - amount
    return {k: v for k, v in sorted(inventory.items()) if v != 0}
```

challenge-coding-010 PASS

Suite: coding · Latency: 7408 ms · Cost: $0.001108 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(expr: str) -> int。expr 只包含非负整数、+、-、空格和括号，计算表达式结果。不要使用 eval。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve('1 + 2 - 3') == 0
assert solution.solve('10 - (2 + 3) + 4') == 9
assert solution.solve('(1+(4+5+2)-3)+(6+8)') == 23

Output

```python
def solve(expr: str) -> int:
    def calc(s):
        stack = []
        num = 0
        sign = 1
        res = 0
        i = 0
        while i < len(s):
            c = s[i]
            if c.isdigit():
                num = 0
                while i < len(s) and s[i].isdigit():
                    num = num * 10 + int(s[i])
                    i += 1
                res += sign * num
                continue
            elif c == '+':
                sign = 1
            elif c == '-':
                sign = -1
            elif c == '(':
                stack.append(res)
                stack.append(sign)
                res = 0
                sign = 1
            elif c == ')':
                res = stack.pop() * res + stack.pop()
            i += 1
        return res

    return calc(expr)
```

challenge-coding-011 PASS

Suite: coding · Latency: 5105 ms · Cost: $0.000831 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(rows: list[str]) -> list[tuple[str, int]]。每行格式为 "name score"，空白数量不定；同名保留最高分；输出按分数降序、同分按 name 升序。忽略空行。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve(['alice 10','bob   12','alice 15','','bob 11']) == [('alice',15),('bob',12)]
assert solution.solve(['x -1','a -1','b 0']) == [('b',0),('a',-1),('x',-1)]

Output

```python
def solve(rows: list[str]) -> list[tuple[str, int]]:
    best = {}
    for line in rows:
        if not line.strip():
            continue
        parts = line.split()
        name = parts[0]
        score = int(parts[1])
        if name not in best or score > best[name]:
            best[name] = score
    return sorted(best.items(), key=lambda x: (-x[1], x[0]))
```

challenge-coding-012 PASS

Suite: coding · Latency: 32640 ms · Cost: $0.001093 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(pattern: str, text: str) -> bool。pattern 支持 ? 匹配任意单字符，* 匹配任意长度字符串。必须匹配完整 text。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve('a*b?d', 'axxxbc d'.replace(' ','')) is True
assert solution.solve('a*c', 'ab') is False
assert solution.solve('*', '') is True
assert solution.solve('file-??.txt', 'file-ab.txt') is True

Output

```python
def solve(pattern: str, text: str) -> bool:
    n, m = len(text), len(pattern)
    dp = [[False] * (m + 1) for _ in range(n + 1)]
    dp[0][0] = True
    for j in range(1, m + 1):
        if pattern[j - 1] == '*':
            dp[0][j] = dp[0][j - 1]
    for i in range(1, n + 1):
        for j in range(1, m + 1):
            p = pattern[j - 1]
            if p == '*':
                dp[i][j] = dp[i][j - 1] or dp[i - 1][j]
            elif p == '?' or p == text[i - 1]:
                dp[i][j] = dp[i - 1][j - 1]
    return dp[n][m]
```

challenge-coding-013 PASS

Suite: coding · Latency: 4064 ms · Cost: $0.000699 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(tree: dict) -> list[str]。tree 是嵌套字典，叶子是字符串或数字。返回所有叶子的路径，路径用点连接，按字典序排序。例如 {'a': {'b': 1}} -> ['a.b=1']。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve({'a': {'b': 1, 'c': 'x'}, 'd': 2}) == ['a.b=1','a.c=x','d=2']
assert solution.solve({'z': {'a': {'b': 3}}}) == ['z.a.b=3']
assert solution.solve({}) == []

Output

```python
def solve(tree: dict) -> list[str]:
    result = []
    def dfs(node, path):
        if isinstance(node, dict):
            for k in node:
                dfs(node[k], path + [k] if path else [k])
        else:
            result.append(".".join(path) + "=" + str(node))
    dfs(tree, [])
    result.sort()
    return result
```

challenge-coding-014 PASS

Suite: coding · Latency: 211278 ms · Cost: $0.056260 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(nums: list[int]) -> int。返回删除恰好一个元素后，剩余数组的最大连续子数组和。nums 长度至少为 2，可以全为负数。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve([1,-2,0,3]) == 4
assert solution.solve([1,-2,-2,3]) == 3
assert solution.solve([-1,-1,-1]) == -1
assert solution.solve([2,1,-2,3]) == 6

Output

```python
def solve(nums: list[int]) -> int:
    n = len(nums)
    left = [0] * n
    left[0] = nums[0]
    for i in range(1, n):
        left[i] = max(nums[i], left[i-1] + nums[i])
    right = [0] * n
    right[-1] = nums[-1]
    for i in range(n-2, -1, -1):
        right[i] = max(nums[i], right[i+1] + nums[i])
    max_proper = max(max(right[1:]), max(left[:-1]))
    crossing = -float('inf')
    for i in range(1, n-1):
        crossing = max(crossing, left[i-1] + right[i+1])
    return max(max_proper, crossing)
```

challenge-debugging-009 PASS

Suite: debugging · Latency: 4498 ms · Cost: $0.000734 · Finish: stop

Prompt

下面代码期望把输入按逗号拆分并去掉空白，但会把空字段也保留下来。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 return 行>。

```python
def parse(s):
    return [part.strip() for part in s.split(',')]
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*return\s+\[part\.strip\(\)\s+for\s+part\s+in\s+s\.split\('\,'\)\s+if\s+part\.strip\(\)\]\s*`?

Output

Bug：没有过滤掉 strip 后为空的字段，导致空字段被保留。

最小修复：在列表推导式中加过滤条件 `if part.strip()`。

FIX: return [part.strip() for part in s.split(',') if part.strip()]

challenge-debugging-010 PASS

Suite: debugging · Latency: 6777 ms · Cost: $0.001079 · Finish: stop

Prompt

下面代码期望用 UTC 时间戳排序，但字符串排序会错。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 sort 行>。

```python
rows.sort(key=lambda r: r['ts'])
```

Standard Answer / Scoring Expectation

Accepted answers:
- datetime.fromisoformat
- dateutil.parser
- 解析 ts 后排序
- parse ts
- fromisoformat
- int(r['ts'])
- float(r['ts'])
- key=lambda r: int(r['ts'])
- key=lambda r: float(r['ts'])

Output

**Bug**: `r['ts']` 是字符串（如 ISO 格式），字符串排序按字典序比较，无法正确按时间排序（例如 `"2024-1-9"` 会排在 `"2024-1-10"` 前面，但 `"2024-01-09T..."` 格式下也可能因时区偏移等问题出错）。

**最小修复**: 将字符串解析为 `datetime` 对象再排序。

```python
from datetime import datetime
rows.sort(key=lambda r: datetime.fromisoformat(r['ts']))
```

FIX: rows.sort(key=lambda r: datetime.fromisoformat(r['ts']))

challenge-debugging-011 PASS

Suite: debugging · Latency: 5472 ms · Cost: $0.000700 · Finish: stop

Prompt

下面代码在输入包含 0 时会误判为默认值 10。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 limit 赋值行>。

```python
def query(limit=None):
    limit = limit or 10
    return list(range(limit))
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*(?:limit\s*=\s*10\s+if\s+limit\s+is\s+None\s+else\s+limit|limit\s*=\s*limit\s+if\s+limit\s+is\s+not\s+None\s+else\s+10|if\s+limit\s+is\s+None\s*:\s*limit\s*=\s*10)\s*`?

Output

Bug：`limit or 10` 会把 `0` 当作假值，导致传入 `0` 时被替换为 `10`。应改为显式判断 `None`。

FIX: `limit = limit if limit is not None else 10`

challenge-debugging-012 PASS

Suite: debugging · Latency: 4433 ms · Cost: $0.000664 · Finish: stop

Prompt

下面代码期望复制嵌套配置后修改副本，但原配置也被修改。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 copied 赋值行>。

```python
def update(config):
    copied = dict(config)
    copied['db']['host'] = 'localhost'
    return copied
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*copied\s*=\s*(?:copy\.deepcopy\(config\)|__import__\(['\"]copy['\"]\)\.deepcopy\(config\))\s*`?

Output

Bug：`dict(config)` 是浅拷贝，嵌套字典 `db` 仍是原对象的引用，修改副本会影响原配置。

最小修复：改用深拷贝。

FIX: `copied = copy.deepcopy(config)`

challenge-debugging-013 PASS

Suite: debugging · Latency: 7900 ms · Cost: $0.000794 · Finish: stop

Prompt

下面代码期望找到第一个匹配项，但找不到时会抛 StopIteration。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 return 行>。

```python
def find_user(users, name):
    return next(u for u in users if u['name'] == name)
```

Standard Answer / Scoring Expectation

Expected regex pattern:
\*{0,2}FIX\*{0,2}:\*{0,2}\s*`?\s*return\s+next\(\(u\s+for\s+u\s+in\s+users\s+if\s+u\['name'\]\s*==\s*name\),\s*None\)\s*`?

Output

Bug：`next()` 在生成器无匹配项时抛出 `StopIteration`，未提供默认值。

最小修复：给 `next` 传入默认值（如 `None`）。

FIX: return next((u for u in users if u['name'] == name), None)

challenge-debugging-014 PASS

Suite: debugging · Latency: 14115 ms · Cost: $0.001279 · Finish: stop

Prompt

下面代码期望按请求顺序记录日志，但默认参数导致多次调用共用同一个列表。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的函数定义行>。

```python
def log_request(req, logs=[]):
    logs.append(req['id'])
    return logs
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*(?:```(?:python)?\s*)?`?\s*def\s+log_request\(req,\s*logs=None\)\s*:

Output

Bug: 函数使用了可变对象 `[]` 作为默认参数，导致多次调用未传入 `logs` 时会共享并修改同一个列表实例。

最小修复: 将默认参数设为 `None`，并在函数体内部初始化为空列表。

FIX: def log_request(req, logs=None):

challenge-reasoning-006 PASS

Suite: reasoning · Latency: 6492 ms · Cost: $0.000921 · Finish: stop

Prompt

只回答最终数字：一个队列从左到右是 A,B,C,D,E。依次执行：把第 2 个移到末尾；删除第 3 个；在最前面插入 X；把最后两个反转。最终队列中 C 的位置是第几位？

Standard Answer / Scoring Expectation

Answer: 3

Output

challenge-reasoning-007 PASS

Suite: reasoning · Latency: 7523 ms · Cost: $0.001185 · Finish: stop

Prompt

只回答最终数字：某缓存命中率从 60% 提升到 75%。如果总请求数为 800，未命中请求减少了多少个？

Standard Answer / Scoring Expectation

Answer: 120

Output

challenge-rag-005 PASS

Suite: rag_long_context · Latency: 4527 ms · Cost: $0.001023 · Finish: stop

Prompt

只根据资料回答。

资料：A 模型在 ability mode 中通过 46/50，成本 0.12 美元；在 efficiency mode 中通过 34/50，成本 0.04 美元。报告建议把 ability mode 用于能力判断，把 efficiency mode 用于成本和稳定性判断。

问题：如果文章讨论“模型真实能力”，应该优先引用哪个模式？如果讨论“低预算可用性”，应该优先引用哪个模式？

Standard Answer / Scoring Expectation

Required phrases: ability mode、efficiency mode、真实能力、低预算
Forbidden phrases: 只看一个模式
Length guidance (diagnostic only): min=n/a, max=180

Output

讨论“模型真实能力”应优先引用 **ability mode**；讨论“低预算可用性”应优先引用 **efficiency mode**。

challenge-rag-006 FAIL

Suite: rag_long_context · Latency: 3256 ms · Cost: $0.000532 · Finish: stop

Prompt

只根据资料回答。

资料：一次失败分析显示，模型输出了 key = int(parts[1])，但测试数据里的 key 是字符串 a、b、c。报告认为这是“擅自补类型假设”，不是 token 截断。

问题：这次失败的根因是什么？

Standard Answer / Scoring Expectation

Required phrases: key
At least one from each group: 字符串 / 类型不匹配；整数 / int；类型假设 / 假设 key 为整数 / 假设 key 是整数 / key 为整数类型
Length guidance (diagnostic only): min=n/a, max=120

Mistake Analysis

Failure type: missing_required_info

Output

这次失败的根因是模型“擅自补类型假设”。

challenge-rag-007 PASS

Suite: rag_long_context · Latency: 6627 ms · Cost: $0.000673 · Finish: stop

Prompt

只根据资料回答，不要自行补充。

资料：DracoBench 的 HTML 报告目前展示 Summary、By Suite、Failure Examples 和 Case Details。Failure Examples 中包括 Prompt、Mistake Analysis、Scorer Details 和 Output。资料没有提到图表功能。

问题：报告是否已经支持图表？回答时说明依据。

Standard Answer / Scoring Expectation

Required phrases: 图表、资料
At least one from each group: 提到 / 提及
Forbidden phrases: 已经支持、折线图、柱状图
Length guidance (diagnostic only): min=n/a, max=100

Output

不支持。依据：资料中列出的报告内容仅包括 Summary、By Suite、Failure Examples 和 Case Details，且明确说明“资料没有提到图表功能”。

challenge-if-004 PASS

Suite: instruction_following · Latency: 13842 ms · Cost: $0.001685 · Finish: stop

Prompt

只输出 JSON 对象。字段 mode 必须是 "ability"；字段 limits 必须是对象，包含 max_tokens:4096 和 temperature:0；字段 warnings 必须是正好两个字符串组成的数组。不要 Markdown。

Standard Answer / Scoring Expectation

Expected JSON schema:
{
  "type": "object",
  "required": [
    "mode",
    "limits",
    "warnings"
  ],
  "additionalProperties": false,
  "properties": {
    "mode": {
      "type": "string",
      "const": "ability"
    },
    "limits": {
      "type": "object",
      "required": [
        "max_tokens",
        "temperature"
      ],
      "additionalProperties": false,
      "properties": {
        "max_tokens": {
          "type": "integer",
          "const": 4096
        },
        "temperature": {
          "type": "integer",
          "const": 0
        }
      }
    },
    "warnings": {
      "type": "array",
      "minItems": 2,
      "maxItems": 2,
      "items": {
        "type": "string"
      }
    }
  }
}

Output

{
  "mode": "ability",
  "limits": {
    "max_tokens": 4096,
    "temperature": 0
  },
  "warnings": [
    "This is the first warning.",
    "This is the second warning."
  ]
}

challenge-if-005 PASS

Suite: instruction_following · Latency: 9240 ms · Cost: $0.001764 · Finish: stop

Prompt

只输出 Markdown 表格，必须有 3 列：模式、用途、风险。必须包含 ability mode 和 efficiency mode 两行。不能添加表格外说明。

Standard Answer / Scoring Expectation

Expected regex pattern:
^\s*\|\s*模式\s*\|\s*用途\s*\|\s*风险\s*\|\s*\n\s*\|\s*-+\s*\|\s*-+\s*\|\s*-+\s*\|[\s\S]*ability mode[\s\S]*efficiency mode[\s\S]*$

Output

| 模式 | 用途 | 风险 |
| --- | --- | --- |
| ability mode | 解决复杂问题、执行高难度任务 | 资源消耗大、可能导致响应变慢 |
| efficiency mode | 快速响应、处理简单任务、节省资源 | 可能无法处理复杂逻辑、准确率降低 |

challenge-zh-writing-003 PASS

Suite: chinese_writing · Latency: 12498 ms · Cost: $0.003375 · Finish: stop

Prompt

写一段不超过 140 个汉字的公众号小结，主题是“为什么要同时展示原题、模型输出和错误解释”。必须包含“原题”“错误解释”“可复查”，不能出现“玄学”。

Standard Answer / Scoring Expectation

Required phrases: 原题、错误解释、可复查
Forbidden phrases: 玄学
Length guidance (diagnostic only): min=n/a, max=140

Output

为什么要同时展示原题、模型输出和错误解释？因为脱离原题谈输出是断章取义，没有错误解释的结论难以服众。三者同框，不仅让评测过程彻底透明，更让结果可复查。读者能直观对比模型的真实水平与短板，拒绝盲信，让每一次评测都经得起推敲。

challenge-reasoning-008 PASS

Suite: reasoning · Latency: 4204 ms · Cost: $0.000771 · Finish: stop

Prompt

只回答最终数字：变量初始为 x=2, y=5, z=1。若 x<y，交换 x 和 y；然后令 z=z+x-y；若 z 为偶数，令 y=y+z，否则令 x=x+z。最终 x+y+z 等于多少？

Standard Answer / Scoring Expectation

Answer: 15

Output

challenge-reasoning-009 PASS

Suite: reasoning · Latency: 14986 ms · Cost: $0.002655 · Finish: stop

Prompt

只回答一个字母：任务 A、B、C、D、E、F 排列。C 必须紧挨在 A 后面；B 必须在 D 前；D 必须在 F 前；F 必须最后；E 不能第一。在所有满足条件的排列中字典序最小的排列，第三个任务是谁？

Standard Answer / Scoring Expectation

Answer: B

Output

challenge-reasoning-010 PASS

Suite: reasoning · Latency: 9726 ms · Cost: $0.000894 · Finish: stop

Prompt

只回答“可满足”或“不可满足”：布尔变量 x、y、z 满足：x 和 y 恰好一个为真；如果 x 为真则 z 为真；如果 y 为真则 z 为假；z 为真。是否存在赋值满足全部约束？

Standard Answer / Scoring Expectation

Answer: 可满足

Output

可满足

challenge-reasoning-011 PASS

Suite: reasoning · Latency: 3630 ms · Cost: $0.001005 · Finish: stop

Prompt

只回答最终数字：列表 [2,4,6,8] 中每个数先减去它的位置编号（从 1 开始），然后删除所有奇数，再把剩余数平方，最后求和。结果是多少？

Standard Answer / Scoring Expectation

Answer: 20

Output

challenge-reasoning-012 PASS

Suite: reasoning · Latency: 3689 ms · Cost: $0.001152 · Finish: stop

Prompt

只回答最终数字：一个 5 位二进制数 10110 先循环右移 1 位，再与 00111 做异或，最后转成十进制。结果是多少？

Standard Answer / Scoring Expectation

Answer: 12

Output

challenge-reasoning-013 PASS

Suite: reasoning · Latency: 9736 ms · Cost: $0.000397 · Finish: stop

Prompt

只回答一个字母：模型 A 通过 18 题、成本 0.06；模型 B 通过 20 题、成本 0.10；模型 C 通过 16 题、成本 0.04。按“通过题数/成本”最高选择，应该选哪个模型？

Standard Answer / Scoring Expectation

Answer: C

Output

challenge-reasoning-014 PASS

Suite: reasoning · Latency: 2357 ms · Cost: $0.000336 · Finish: stop

Prompt

只回答最终数字：同一套 100 道题中，失败题数从 12 降到 7。错误率降低了多少个百分点？

Standard Answer / Scoring Expectation

Answer: 5

Output

challenge-reasoning-015 PASS

Suite: reasoning · Latency: 2277 ms · Cost: $0.000624 · Finish: stop

Prompt

只回答最终数字：集合 S 初始为 {a,b,c,d}。删除字母序在 c 之前的元素；加入 e 和 b；再删除所有元音字母。最终集合有几个元素？

Standard Answer / Scoring Expectation

Answer: 3

Output

challenge-reasoning-016 PASS

Suite: reasoning · Latency: 2105 ms · Cost: $0.000336 · Finish: stop

Prompt

只回答最终数字：3x3 矩阵按行是 1 2 3 / 4 5 6 / 7 8 9。顺时针旋转 90 度后，第二行元素之和是多少？

Standard Answer / Scoring Expectation

Answer: 15

Output

challenge-reasoning-017 PASS

Suite: reasoning · Latency: 8698 ms · Cost: $0.001940 · Finish: stop

Prompt

只回答最终数字：依赖关系为 a 无依赖；b 依赖 a；c 依赖 a；d 依赖 b 和 c；e 依赖 b；f 依赖 d 和 e；g 依赖 a。按可并行执行的拓扑层划分，第二层有几个任务？

Standard Answer / Scoring Expectation

Answer: 3

Output

challenge-reasoning-018 PASS

Suite: reasoning · Latency: 5569 ms · Cost: $0.001166 · Finish: stop

Prompt

只回答星期几：第 0 天是星期二。每 7 天循环一次。第 17 天是星期几？

Standard Answer / Scoring Expectation

Answer: 星期五

Output

星期五

challenge-reasoning-019 PASS

Suite: reasoning · Latency: 4867 ms · Cost: $0.000986 · Finish: stop

Prompt

只回答最终数字：用 A、B、C 组成长度为 3 的字符串，要求恰好包含一个 A，并且最后一个字符不能是 C。满足条件的字符串有多少个？

Standard Answer / Scoring Expectation

Answer: 8

Output

challenge-reasoning-020 PASS

Suite: reasoning · Latency: 9232 ms · Cost: $0.000817 · Finish: stop

Prompt

只回答最终数字：栈操作从空栈开始。push n 表示入栈；dup 复制栈顶；add 弹出两个数并压入它们的和；swap 交换栈顶两个数；sub 先弹出 x 再弹出 y，并压入 y-x。依次执行：push 2, push 3, dup, add, push 4, swap, sub。最终栈顶是多少？

Standard Answer / Scoring Expectation

Answer: -2

Output

-2

challenge-reasoning-021 PASS

Suite: reasoning · Latency: 8074 ms · Cost: $0.001103 · Finish: stop

Prompt

只回答最终数字：三个队列 Q1、Q2、Q3 初始长度分别为 2、1、0。每一轮先从所有非空队列各处理 1 个元素，然后向 Q3 加入 2 个元素。执行 3 轮后，三个队列总长度是多少？

Standard Answer / Scoring Expectation

Answer: 4

Output

challenge-reasoning-022 PASS

Suite: reasoning · Latency: 5272 ms · Cost: $0.000764 · Finish: stop

Prompt

只回答最终数字：映射初始为 {a:1, b:2}。依次执行：设置 c=a+b；设置 a=c-b；删除 b；设置 d=a+c。最终所有 value 之和是多少？

Standard Answer / Scoring Expectation

Answer: 8

Output

challenge-reasoning-023 PASS

Suite: reasoning · Latency: 7669 ms · Cost: $0.001106 · Finish: stop

Prompt

只回答“甲”“乙”或“丙”：甲说“乙说的是真话”；乙说“丙说的是假话”；丙说“甲说的是假话”。如果恰好一人说真话，说真话的人是谁？

Standard Answer / Scoring Expectation

Answer: 丙

Output

丙

challenge-reasoning-024 PASS

Suite: reasoning · Latency: 3063 ms · Cost: $0.000462 · Finish: stop

Prompt

只回答一个字母：综合分 = 通过率百分数 - 成本乘以 10。模型 A 通过率 92%、成本 0.20；模型 B 通过率 88%、成本 0.05；模型 C 通过率 90%、成本 0.10。综合分最高的是哪个模型？

Standard Answer / Scoring Expectation

Answer: A

Output

challenge-reasoning-025 PASS

Suite: reasoning · Latency: 2747 ms · Cost: $0.000500 · Finish: stop

Prompt

只回答最终三位数：一个三位数的百位为 a、十位为 b、个位为 c。已知 a+b+c=13，a=c+1，b=2c。这个三位数是多少？

Standard Answer / Scoring Expectation

Answer: 463

Output

challenge-coding-015 FAIL

Suite: coding · Latency: 6322 ms · Cost: $0.001225 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(line: str) -> list[str]，解析一行简化 CSV：逗号分隔；字段可以用双引号包裹；引号内逗号保留；引号内两个连续双引号表示一个双引号；空字段保留；空格是普通字符，不要自动 trim。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve('a,"b,c",d') == ['a', 'b,c', 'd']
assert solution.solve('"a""b",,x') == ['a"b', '', 'x']
assert solution.solve('  a ," b " ') == ['  a ', ' b  ']

Mistake Analysis

Failure type: code_assertion_failure

Output

```python
def solve(line: str) -> list[str]:
    fields = []
    i = 0
    n = len(line)
    while i <= n:
        field_chars = []
        if i < n and line[i] == '"':
            i += 1
            while i < n:
                if line[i] == '"':
                    if i + 1 < n and line[i + 1] == '"':
                        field_chars.append('"')
                        i += 2
                    else:
                        i += 1
                        break
                else:
                    field_chars.append(line[i])
                    i += 1
            fields.append(''.join(field_chars))
        else:
            while i < n and line[i] != ',':
                field_chars.append(line[i])
                i += 1
            fields.append(''.join(field_chars))
        if i < n and line[i] == ',':
            i += 1
        else:
            break
    return fields
```

challenge-coding-016 PASS

Suite: coding · Latency: 3794 ms · Cost: $0.000786 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(intervals: list[tuple[int, int]]) -> list[tuple[int, int]]。intervals 是整数闭区间，先按起点排序；重叠或端点相邻的区间要合并，例如 [1,2] 和 [3,4] 合并为 [1,4]。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve([(5,7),(1,2),(3,4),(10,10)]) == [(1,7),(10,10)]
assert solution.solve([(1,1),(3,3)]) == [(1,1),(3,3)]
assert solution.solve([]) == []

Output

```python
def solve(intervals: list[tuple[int, int]]) -> list[tuple[int, int]]:
    if not intervals:
        return []
    intervals = sorted(intervals, key=lambda x: x[0])
    merged = [intervals[0]]
    for start, end in intervals[1:]:
        last_start, last_end = merged[-1]
        if start <= last_end + 1:
            merged[-1] = (last_start, max(last_end, end))
        else:
            merged.append((start, end))
    return merged
```

challenge-coding-017 PASS

Suite: coding · Latency: 6895 ms · Cost: $0.001272 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(events: list[tuple[str, int]], window: int, limit: int) -> list[bool]，模拟按用户限流。events 按时间非降序排列。某用户在当前事件时间 ts 的窗口 (ts-window, ts] 内，已放行事件数少于 limit 才放行；被拒绝的事件不计入窗口。

Standard Answer / Scoring Expectation

Reference tests:
events=[('a',1),('a',2),('a',3),('a',4),('a',8)]
assert solution.solve(events, 5, 2) == [True, True, False, False, True]
assert solution.solve([('x',10),('x',11),('x',16)], 5, 1) == [True, False, True]

Output

```python
from collections import defaultdict, deque

def solve(events: list[tuple[str, int]], window: int, limit: int) -> list[bool]:
    user_times = defaultdict(deque)
    result = []
    for user, ts in events:
        dq = user_times[user]
        while dq and dq[0] <= ts - window:
            dq.popleft()
        if len(dq) < limit:
            dq.append(ts)
            result.append(True)
        else:
            result.append(False)
    return result
```

challenge-coding-018 PASS

Suite: coding · Latency: 3467 ms · Cost: $0.000492 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(path: str) -> str，规范化绝对 Unix 路径：处理重复斜杠、.、..；.. 在根目录时仍留在根目录；返回结果必须以 / 开头且除根目录外不能以 / 结尾。不要使用 os.path。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve('/a//b/./c/../') == '/a/b'
assert solution.solve('/../../x') == '/x'
assert solution.solve('/') == '/'

Output

```python
def solve(path: str) -> str:
    stack = []
    for part in path.split('/'):
        if part == '' or part == '.':
            continue
        if part == '..':
            if stack:
                stack.pop()
        else:
            stack.append(part)
    return '/' + '/'.join(stack)
```

challenge-coding-019 PASS

Suite: coding · Latency: 14407 ms · Cost: $0.001034 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(words: list[str]) -> list[list[str]]，按变位词分组。大小写敏感；组内保持输入顺序；组的顺序按该组第一个单词在输入中出现的位置。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve(['eat','tea','tan','ate','nat','bat']) == [['eat','tea','ate'], ['tan','nat'], ['bat']]
assert solution.solve(['b','B','bb']) == [['b'], ['B'], ['bb']]

Output

```python
def solve(words: list[str]) -> list[list[str]]:
    groups = {}
    for w in words:
        key = tuple(sorted(w))
        groups.setdefault(key, []).append(w)
    return list(groups.values())
```

challenge-coding-020 PASS

Suite: coding · Latency: 6817 ms · Cost: $0.001363 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(text: str) -> dict，解析 Markdown front matter。只有第一行正好是 --- 时才解析，直到下一行 --- 结束；每行 key: value，key 和 value 两侧 trim；形如 [a, b] 的 value 返回字符串列表；其他 value 返回字符串。没有完整 front matter 返回 {}。

Standard Answer / Scoring Expectation

Reference tests:
text='---\ntitle: Test\ntags: [ai, bench,  v0]\ndraft: false\n---\nbody'
assert solution.solve(text) == {'title':'Test','tags':['ai','bench','v0'],'draft':'false'}
assert solution.solve('hello\n---\na: b') == {}
assert solution.solve('---\na: 1') == {}

Output

```python
import re

def solve(text: str) -> dict:
    if not text.startswith("---\n"):
        return {}
    lines = text.split("\n")
    if lines[0] != "---":
        return {}
    end = None
    for i in range(1, len(lines)):
        if lines[i] == "---":
            end = i
            break
    if end is None:
        return {}
    result = {}
    for line in lines[1:end]:
        if not line.strip():
            continue
        if ":" not in line:
            continue
        key, _, value = line.partition(":")
        key = key.strip()
        value = value.strip()
        if not key:
            continue
        m = re.fullmatch(r"\[(.*)\]", value)
        if m:
            inner = m.group(1)
            items = [x.strip() for x in inner.split(",")]
            result[key] = items
        else:
            result[key] = value
    return result
```

challenge-coding-021 PASS

Suite: coding · Latency: 4524 ms · Cost: $0.000543 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(items: list[str], k: int) -> list[str]，返回出现次数最高的前 k 个元素；次数相同按第一次出现的先后排序；k 大于不同元素数量时返回全部。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve(['b','a','b','c','a','b'], 2) == ['b','a']
assert solution.solve(['x','y','z','y','z','x'], 2) == ['x','y']
assert solution.solve(['a'], 5) == ['a']

Output

```python
from collections import Counter, OrderedDict

def solve(items: list[str], k: int) -> list[str]:
    order = OrderedDict()
    for x in items:
        order[x] = order.get(x, 0) + 1
    counts = list(order.items())
    counts.sort(key=lambda kv: (-kv[1],))
    return [x for x, _ in counts[:k]]
```

challenge-coding-022 PASS

Suite: coding · Latency: 10059 ms · Cost: $0.001032 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(config: dict, overrides: dict[str, object]) -> dict。overrides 的 key 是点号路径；值为 None 表示删除该路径的叶子 key；其他值写入路径，必要时创建中间 dict；不能修改输入 config。

Standard Answer / Scoring Expectation

Reference tests:
base={'db':{'host':'old','port':5432},'feature':{'x':1}}
overrides={'db.host':'new','feature.x':None,'api.timeout':30}
res=solution.solve(base, overrides)
assert res == {'db':{'host':'new','port':5432},'feature':{},'api':{'timeout':30}}
assert base == {'db':{'host':'old','port':5432},'feature':{'x':1}}
assert solution.solve({'a':1}, {'a.b':2}) == {'a': {'b': 2}}

Output

```python
def solve(config: dict, overrides: dict[str, object]) -> dict:
    import copy
    result = copy.deepcopy(config)

    for path, value in overrides.items():
        keys = path.split(".")
        d = result
        for k in keys[:-1]:
            if not isinstance(d.get(k), dict):
                d[k] = {}
            d = d[k]
        if value is None:
            d.pop(keys[-1], None)
        else:
            d[keys[-1]] = value

    return result
```

challenge-coding-023 PASS

Suite: coding · Latency: 15326 ms · Cost: $0.000785 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(query: str) -> dict[str, list[str]]，解析 URL query string。& 分隔参数；没有 = 的参数值为空字符串；+ 表示空格；%XX 需要按 UTF-8 百分号解码；同名 key 保留所有值的列表。可以使用标准库。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve('a=1&b=two+words&a=3') == {'a':['1','3'], 'b':['two words']} 
assert solution.solve('empty=&flag&x=a%2Bb') == {'empty':[''], 'flag':[''], 'x':['a+b']} 
assert solution.solve('') == {}

Output

```python
from urllib.parse import parse_qs


def solve(query: str) -> dict[str, list[str]]:
    return parse_qs(query, keep_blank_values=True)
```

challenge-coding-024 PASS

Suite: coding · Latency: 8528 ms · Cost: $0.002705 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(html: str) -> bool，校验简化 HTML 标签是否配对。标签形如 <a>、</a>、<br/>，标签名只含小写字母；自闭合标签不入栈；普通文本忽略。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve('<div><br/><p>x</p></div>') is True
assert solution.solve('<a><b></a></b>') is False
assert solution.solve('text<a><b/></a>') is True

Output

```python
import re

def solve(html: str) -> bool:
    stack = []
    for m in re.finditer(r'<(/?)([a-z]+)(/?)>', html):
        slash_before, name, slash_after = m.groups()
        if slash_after:
            continue
        if slash_before:
            if not stack or stack.pop() != name:
                return False
        else:
            stack.append(name)
    return not stack
```

challenge-coding-025 PASS

Suite: coding · Latency: 8108 ms · Cost: $0.001441 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(grid: list[str]) -> int。grid 中 S 是起点，E 是终点，# 是墙，. 可走。每步上下左右移动一格，返回从 S 到 E 的最短步数；不可达返回 -1。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve(['S..','##.','..E']) == 4
assert solution.solve(['S#','##','E.']) == -1
assert solution.solve(['SE']) == 1

Output

```python
from collections import deque

def solve(grid: list[str]) -> int:
    if not grid:
        return -1
    rows = len(grid)
    cols = len(grid[0])
    start = end = None
    for i in range(rows):
        for j in range(cols):
            if grid[i][j] == 'S':
                start = (i, j)
            elif grid[i][j] == 'E':
                end = (i, j)
    if start is None or end is None:
        return -1
    q = deque([(start[0], start[1], 0)])
    visited = [[False] * cols for _ in range(rows)]
    visited[start[0]][start[1]] = True
    while q:
        x, y, d = q.popleft()
        if (x, y) == end:
            return d
        for dx, dy in ((1,0),(-1,0),(0,1),(0,-1)):
            nx, ny = x + dx, y + dy
            if 0 <= nx < rows and 0 <= ny < cols and not visited[nx][ny] and grid[nx][ny] != '#':
                visited[nx][ny] = True
                q.append((nx, ny, d + 1))
    return -1
```

challenge-coding-026 PASS

Suite: coding · Latency: 9808 ms · Cost: $0.002569 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(nums: list[int], k: int) -> list[float]，返回每个长度为 k 的滑动窗口中位数。k 为奇数时返回中间值；k 为偶数时返回两个中间值平均数。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve([1,3,-1,-3,5,3,6,7], 3) == [1, -1, -1, 3, 5, 6]
assert solution.solve([1,2,3,4], 2) == [1.5, 2.5, 3.5]

Output

```python
from bisect import insort, bisect_left

def solve(nums: list[int], k: int) -> list[float]:
    if k <= 0 or k > len(nums):
        return []

    window = sorted(nums[:k])
    res = []

    def median(w: list[int]) -> float:
        if k % 2:
            return float(w[k // 2])
        return (w[k // 2 - 1] + w[k // 2]) / 2.0

    res.append(median(window))

    for i in range(k, len(nums)):
        old = nums[i - k]
        window.pop(bisect_left(window, old))
        insort(window, nums[i])
        res.append(median(window))

    return res
```

challenge-coding-027 PASS

Suite: coding · Latency: 8770 ms · Cost: $0.001662 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(versions: list[str]) -> list[str]，按简化语义版本排序。版本为 major.minor.patch 或 major.minor.patch-label；major/minor/patch 按数字比较；同一数字版本下，带 label 的预发布版本低于正式版本；label 按字典序比较。

Standard Answer / Scoring Expectation

Reference tests:
assert solution.solve(['1.0.0','1.0.0-alpha','1.0.1','1.0.0-beta','0.9.9']) == ['0.9.9','1.0.0-alpha','1.0.0-beta','1.0.0','1.0.1']
assert solution.solve(['1.0.10','1.0.2']) == ['1.0.2','1.0.10']

Output

```python
def solve(versions: list[str]) -> list[str]:
    def key(v: str):
        if '-' in v:
            base, label = v.split('-', 1)
            prerelease = 0
        else:
            base, label = v, ''
            prerelease = 1
        major, minor, patch = map(int, base.split('.'))
        return (major, minor, patch, prerelease, label)

    return sorted(versions, key=key)
```

challenge-coding-028 PASS

Suite: coding · Latency: 22250 ms · Cost: $0.001109 · Finish: stop

Prompt

只输出 Python 代码，不要解释。实现 solve(deps: dict[str, list[str]], changed: list[str]) -> list[str]。deps 表示 package -> 直接依赖。返回所有 changed 包，以及直接或间接依赖 changed 包的包，按字典序排序；只出现在依赖列表中的包也要能作为 changed 包返回。

Standard Answer / Scoring Expectation

Reference tests:
deps={'app':['lib','ui'],'ui':['core'],'lib':['core'],'core':[],'docs':[]}
assert solution.solve(deps, ['core']) == ['app','core','lib','ui']
assert solution.solve({'a':['x']}, ['x']) == ['a','x']
assert solution.solve({'a':['b'], 'b':[]}, ['a']) == ['a']

Output

```python
from collections import defaultdict, deque

def solve(deps: dict[str, list[str]], changed: list[str]) -> list[str]:
    rev = defaultdict(list)
    nodes = set()
    for pkg, dlist in deps.items():
        nodes.add(pkg)
        for d in dlist:
            nodes.add(d)
            rev[d].append(pkg)

    result = set()
    q = deque(changed)
    for c in changed:
        result.add(c)

    while q:
        cur = q.popleft()
        for parent in rev.get(cur, []):
            if parent not in result:
                result.add(parent)
                q.append(parent)

    return sorted(result)
```

challenge-rag-008 PASS

Suite: rag_long_context · Latency: 9528 ms · Cost: $0.001069 · Finish: stop

Prompt

只根据资料回答。

资料 A：早期草案说 v0.3 只新增 20 道题。
资料 B：2026-06-16 的确认方案是 v0.3-challenge100，在现有 50 题基础上新增 50 道题。
资料 C：新增题应先生成审题 HTML，确认后再跑模型，不要立即消耗 API。

问题：下一步应该新增多少题？是否应该立刻跑模型？

Standard Answer / Scoring Expectation

Required phrases: 50、审题
At least one from each group: 不跑 / 不要立刻 / 先不跑 / 不应立刻 / 不应该立刻 / 不应立即 / 不应该立即 / 不应立刻跑 / 不应该立刻跑 / 不应立即跑 / 不应该立即跑
Length guidance (diagnostic only): min=n/a, max=160

Output

下一步应该新增 **50 道题**（依据资料 B 的确认方案，覆盖资料 A 的早期草案）。

不应该立刻跑模型。应先生成审题 HTML，确认后再跑模型，不要立即消耗 API（依据资料 C）。

challenge-rag-009 PASS

Suite: rag_long_context · Latency: 5321 ms · Cost: $0.000769 · Finish: stop

Prompt

只根据资料回答，不要自行补充。

资料：报告展示 pass_rate、avg_latency_ms、total_cost、reasoning_tokens、失败样例和逐题明细。资料没有包含用户满意度调查，也没有包含模型训练数据来源。

问题：能否根据这份报告判断用户满意度？

Standard Answer / Scoring Expectation

Required phrases: 不能、用户满意度
At least one from each group: 没有包含 / 没有提供 / 资料没有 / 未包含
Forbidden phrases: 可以判断
Length guidance (diagnostic only): min=n/a, max=120

Output

不能。资料中明确指出没有包含用户满意度调查。

challenge-rag-010 PASS

Suite: rag_long_context · Latency: 6093 ms · Cost: $0.001308 · Finish: stop

Prompt

只根据资料回答。

资料：模型 A 通过 48/50，平均延迟 20 秒，成本 0.20 美元，没有超时失败。模型 B 通过 44/50，平均延迟 4 秒，成本 0.05 美元，没有超时失败。模型 C 通过 46/50，平均延迟 9 秒，成本 0.04 美元，但有 3 次 API 超时。

问题：如果要选低延迟且稳定的生产摘要模型，资料更支持选择哪个？

Standard Answer / Scoring Expectation

Required phrases: B、延迟
At least one from each group: 没有超时 / 无超时
Forbidden phrases: 选择 A、选择 C
Length guidance (diagnostic only): min=n/a, max=160

Output

资料更支持选择**模型 B**。

理由：模型 B 平均延迟最低（4 秒），且没有超时失败，符合“低延迟且稳定”的要求。相比之下，模型 A 延迟过高（20 秒），模型 C 虽然延迟较低但有 3 次 API 超时，不够稳定。

challenge-rag-011 PASS

Suite: rag_long_context · Latency: 5288 ms · Cost: $0.000575 · Finish: stop

Prompt

只根据资料回答。

资料：DracoBench 当前 scoring policy 中，text_rules 的 max_chars/min_chars 只作为诊断信息记录，length_scored 为 false。缺少 required、required_any 或出现 forbidden 才会导致失败。

问题：如果答案超过 max_chars，但 required 都满足且没有 forbidden，会因为长度直接扣分吗？

Standard Answer / Scoring Expectation

Required phrases: 诊断
At least one from each group: 不扣分 / 不会 / 不会因长度 / 不会因此被扣分 / 不会直接导致扣分 / 不会导致扣分 / 不会导致失败或扣分；length_scored / 长度
Forbidden phrases: 直接失败、必须重跑
Length guidance (diagnostic only): min=n/a, max=140

Output

不会。根据资料，max_chars/min_chars 只作为诊断信息记录，length_scored 为 false，不会因长度直接扣分或失败。

challenge-rag-012 PASS

Suite: rag_long_context · Latency: 3932 ms · Cost: $0.000558 · Finish: stop

Prompt

只根据资料回答。

资料 A：某模型原始结果为 45/50。
资料 B：修正一个同义表达评分规则后，rescored 结果为 46/50。
资料 C：总览 index 使用 rescored JSONL 作为展示结果。

问题：写文章引用总览结果时，应写 45/50 还是 46/50？

Standard Answer / Scoring Expectation

Required phrases: 46/50
Forbidden phrases: 45/50 更合适、原始结果为准
Length guidance (diagnostic only): min=n/a, max=140

Output

应写 46/50。

challenge-rag-013 PASS

Suite: rag_long_context · Latency: 12926 ms · Cost: $0.000901 · Finish: stop

Prompt

只根据资料回答。

资料：为了复现一次 benchmark，记录中包含 model、case_id、prompt_hash、parameters、scorer details、output、latency_ms 和 usage。记录不包含 chain of thought，也不包含训练数据。

问题：复现评测主要应该依赖哪些记录字段？

Standard Answer / Scoring Expectation

Required phrases: model、prompt_hash、parameters、scorer
Forbidden phrases: chain of thought、训练数据
Length guidance (diagnostic only): min=n/a, max=200

Output

根据资料，复现评测主要应该依赖以下记录字段：model、case_id、prompt_hash、parameters、scorer details、output、latency_ms 和 usage。

challenge-rag-014 PASS

Suite: rag_long_context · Latency: 2689 ms · Cost: $0.000386 · Finish: stop

Prompt

只根据资料回答。

资料 A：早期 ability mode 使用 4096 max_tokens。
资料 B：后来为了公平，ability mode 统一放宽到 16384 max_tokens。
资料 C：当前总览页只展示 v0.2-challenge50 且 ability16384 的结果。

问题：当前总览页对应的 token limit 是多少？

Standard Answer / Scoring Expectation

Required phrases: 16384
Forbidden phrases: 4096
Length guidance (diagnostic only): min=n/a, max=100

Output

challenge-rag-015 PASS

Suite: rag_long_context · Latency: 5870 ms · Cost: $0.001120 · Finish: stop

Prompt

只根据资料回答。

资料：coding-004 的失败是代码运行时 ValueError，根因是把字符串 key 强转 int。rag-006 的失败曾经是规则没有把 int 类型视作“整数”的同义表达，后来通过人工复查修正规则。

问题：哪类失败更需要人工复查评分规则？回答时也说明 coding-004 是否属于这种情况。

Standard Answer / Scoring Expectation

Required phrases: 人工复查、coding-004
At least one from each group: rag-006 / 规则 / 评分规则 / 同义表达；不属于 / 不是 / 不需要
Length guidance (diagnostic only): min=n/a, max=180

Output

rag-006 这类失败更需要人工复查评分规则，因为其根因在于评分规则本身存在缺陷（未将 int 类型视作“整数”的同义表达），需要人工修正规则。

coding-004 不属于这种情况。它的失败是代码运行时 ValueError，根因是把字符串 key 强转 int，属于代码运行/逻辑错误，而非评分规则问题。

challenge-rag-016 PASS

Suite: rag_long_context · Latency: 2019 ms · Cost: $0.000264 · Finish: stop

Prompt

只根据资料回答。

资料：usage 字段包含 prompt_tokens、completion_tokens、reasoning_tokens 和 cost。报告没有供应商真实利润率，也没有供应商内部成本。

问题：能否从 usage 字段判断供应商利润率？

Standard Answer / Scoring Expectation

Required phrases: 不能、利润率
At least one from each group: 不包含 / 没有
Forbidden phrases: 可以判断
Length guidance (diagnostic only): min=n/a, max=120

Output

不能。usage 字段只包含 token 用量和 cost，没有供应商真实利润率或内部成本，因此无法据此判断供应商利润率。

challenge-rag-017 PASS

Suite: rag_long_context · Latency: 6072 ms · Cost: $0.000892 · Finish: stop

Prompt

只根据资料回答。

资料：当前 index 页只显示最后这版 50 道题的 v0.2-challenge50 结果，并且 token limit 都统一为 ability16384。之前的版本和 ability4096 结果不显示在 index 页。

问题：index 页是否应该展示旧版本结果？当前展示范围是什么？

Standard Answer / Scoring Expectation

Required phrases: v0.2-challenge50、ability16384
At least one from each group: 不应该 / 不展示 / 未展示 / 不显示 / 均不显示 / 不应展示；旧版本 / 之前的版本
Length guidance (diagnostic only): min=n/a, max=160

Output

不应展示旧版本结果。当前 index 页只展示最后这版 50 道题的 v0.2-challenge50 结果，且 token limit 统一为 ability16384；之前的版本和 ability4096 结果不显示。

challenge-rag-018 PASS

Suite: rag_long_context · Latency: 7698 ms · Cost: $0.000768 · Finish: stop

Prompt

只根据资料回答。

资料：某 coding 题中，模型响应的 finish_reason 为 length，output 为空，测试报错为 module has no attribute solve。报告认为这不是算法逻辑错误，而是输出被截断后没有形成可执行函数。

问题：这次失败应如何归因？

Standard Answer / Scoring Expectation

Required phrases: 输出
At least one from each group: 截断 / length / token
Length guidance (diagnostic only): min=n/a, max=140

Output

根据资料，这次失败应归因为：输出被截断（finish_reason 为 length）导致没有形成可执行函数，而非算法逻辑错误。

challenge-debugging-015 PASS

Suite: debugging · Latency: 5585 ms · Cost: $0.000579 · Finish: stop

Prompt

下面代码期望 funcs[0]()、funcs[1]()、funcs[2]() 分别返回 0、1、2，但实际都会返回 2。请指出根因，并给出最小修复。最后单独一行写 FIX: <修复后的 append 行>。

```python
funcs = []
for i in range(3):
    funcs.append(lambda: i)
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*funcs\.append\(lambda\s+i=i\s*:\s*i\)\s*`?

Output

根因：闭包捕获的是循环变量 `i` 的引用，循环结束后 `i` 为 2，因此所有 lambda 都返回 2。

修复：用默认参数在定义时绑定当前值。

FIX: funcs.append(lambda i=i: i)

challenge-debugging-016 PASS

Suite: debugging · Latency: 2442 ms · Cost: $0.000494 · Finish: stop

Prompt

下面 context manager 期望异常继续向外抛出，但实际异常被吞掉。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 return 行>。

```python
class Span:
    def __enter__(self):
        return self
    def __exit__(self, exc_type, exc, tb):
        return True
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*return(?:\s+False|\s+None)?\s*`?

Output

Bug：`__exit__` 返回 `True` 会吞掉异常。要让异常继续向外抛出，应返回 `False`（或 `None`）。

FIX: return False

challenge-debugging-017 PASS

Suite: debugging · Latency: 4191 ms · Cost: $0.000456 · Finish: stop

Prompt

下面代码期望每个 Bag 实例都有独立列表，但不同实例会共享 items。请指出 bug，并给出最小修复。最后单独一行写 FIX: <新增到 __init__ 中的赋值行>。

```python
class Bag:
    items = []
    def add(self, x):
        self.items.append(x)
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*self\.items\s*=\s*\[\]\s*`?

Output

Bug：`items = []` 是类属性，所有实例共享同一个列表。

修复：在 `__init__` 中初始化为实例属性。

FIX: self.items = []

challenge-debugging-018 PASS

Suite: debugging · Latency: 6677 ms · Cost: $0.000807 · Finish: stop

Prompt

下面代码期望每次不传 ts 时使用当前时间，但默认时间只会在函数定义时计算一次。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的函数定义行>。

```python
from datetime import datetime

def mark(ts=datetime.utcnow()):
    return ts.isoformat()
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*def\s+mark\(ts=None\)\s*:

Output

**Bug:** 默认参数 `datetime.utcnow()` 在函数定义时只计算一次，之后每次调用不传 `ts` 都会复用同一个时间戳。

**修复思路:** 将默认值设为 `None`，在函数体内判断并实时获取当前时间。

FIX: `def mark(ts=None):`

challenge-debugging-019 PASS

Suite: debugging · Latency: 1806 ms · Cost: $0.000286 · Finish: stop

Prompt

下面代码期望返回小写字符串，但实际返回的是方法对象。请指出 bug，并给出最小修复。最后单独一行写 FIX: <修复后的 return 行>。

```python
def normalize(s):
    return s.strip().lower
```

Standard Answer / Scoring Expectation

Expected regex pattern:
FIX:\s*`?\s*return\s+s\.strip\(\)\.lower\(\)\s*`?

Output

Bug：`lower` 是方法对象，未加括号调用。

FIX: return s.strip().lower()

challenge-if-006 PASS

Suite: instruction_following · Latency: 6968 ms · Cost: $0.002283 · Finish: stop

Prompt

只输出 JSON 对象，不要 Markdown。字段 version 必须是 "v0.3"；字段 ready 必须是 true；字段 cases 必须是正好两个对象组成的数组。cases 中每个对象只能包含 id、weight、active 三个字段；id 是字符串且匹配 case-1 或 case-2；weight 是整数；active 是布尔值。

Standard Answer / Scoring Expectation

Expected JSON schema:
{
  "type": "object",
  "required": [
    "version",
    "ready",
    "cases"
  ],
  "additionalProperties": false,
  "properties": {
    "version": {
      "type": "string",
      "const": "v0.3"
    },
    "ready": {
      "type": "boolean",
      "const": true
    },
    "cases": {
      "type": "array",
      "minItems": 2,
      "maxItems": 2,
      "items": {
        "type": "object",
        "required": [
          "id",
          "weight",
          "active"
        ],
        "additionalProperties": false,
        "properties": {
          "id": {
            "type": "string",
            "pattern": "^case-[12]$"
          },
          "weight": {
            "type": "integer"
          },
          "active": {
            "type": "boolean"
          }
        }
      }
    }
  }
}

Output

{
  "version": "v0.3",
  "ready": true,
  "cases": [
    {
      "id": "case-1",
      "weight": 1,
      "active": true
    },
    {
      "id": "case-2",
      "weight": 2,
      "active": false
    }
  ]
}

challenge-zh-writing-004 PASS

Suite: chinese_writing · Latency: 16085 ms · Cost: $0.003418 · Finish: stop

Prompt

写一段不超过 160 个汉字的公众号小结，主题是“为什么 v0.3 要扩到 100 题”。必须包含“推理题”“边界条件”“人工复查”，不能出现“排行榜”。

Standard Answer / Scoring Expectation

Required phrases: 推理题、边界条件、人工复查
Forbidden phrases: 排行榜
Length guidance (diagnostic only): min=n/a, max=160

Output

v0.3 为何扩到 100 题？随着模型能力提升，我们需要更全面的评测维度。本次不仅增加了高难度的推理题，还引入了更复杂的边界条件，以精准探测模型极限。同时，所有新增题目均经过严格的人工复查，确保评测质量与公平。快来挑战吧！

Case Details

Case	Suite	Status	Failure Type	Score	Latency	Cost	Finish
`challenge-coding-001`	coding	PASS	`-`	1.0	8077 ms	$0.000880	stop
`challenge-coding-002`	coding	PASS	`-`	1.0	14380 ms	$0.003302	stop
`challenge-coding-003`	coding	PASS	`-`	1.0	7558 ms	$0.001464	stop
`challenge-coding-004`	coding	PASS	`-`	1.0	4497 ms	$0.001018	stop
`challenge-coding-005`	coding	PASS	`-`	1.0	5309 ms	$0.000657	stop
`challenge-coding-006`	coding	PASS	`-`	1.0	7603 ms	$0.001173	stop
`challenge-coding-007`	coding	PASS	`-`	1.0	5994 ms	$0.001100	stop
`challenge-coding-008`	coding	PASS	`-`	1.0	4719 ms	$0.000740	stop
`challenge-debugging-001`	debugging	PASS	`-`	1.0	6649 ms	$0.001397	stop
`challenge-debugging-002`	debugging	PASS	`-`	1.0	4223 ms	$0.000872	stop
`challenge-debugging-003`	debugging	PASS	`-`	1.0	10175 ms	$0.001425	stop
`challenge-debugging-004`	debugging	PASS	`-`	1.0	20024 ms	$0.000471	stop
`challenge-debugging-005`	debugging	PASS	`-`	1.0	6431 ms	$0.001059	stop
`challenge-debugging-006`	debugging	PASS	`-`	1.0	5640 ms	$0.000578	stop
`challenge-debugging-007`	debugging	PASS	`-`	1.0	7818 ms	$0.000830	stop
`challenge-debugging-008`	debugging	PASS	`-`	1.0	15072 ms	$0.000437	stop
`challenge-reasoning-001`	reasoning	PASS	`-`	1.0	2787 ms	$0.000474	stop
`challenge-reasoning-002`	reasoning	PASS	`-`	1.0	16175 ms	$0.002608	stop
`challenge-reasoning-003`	reasoning	PASS	`-`	1.0	21357 ms	$0.000428	stop
`challenge-reasoning-004`	reasoning	PASS	`-`	1.0	3200 ms	$0.000674	stop
`challenge-reasoning-005`	reasoning	PASS	`-`	1.0	8226 ms	$0.001346	stop
`challenge-rag-001`	rag_long_context	PASS	`-`	1.0	2415 ms	$0.000406	stop
`challenge-rag-002`	rag_long_context	PASS	`-`	1.0	7548 ms	$0.001359	stop
`challenge-rag-003`	rag_long_context	PASS	`-`	1.0	12990 ms	$0.002307	stop
`challenge-rag-004`	rag_long_context	PASS	`-`	1.0	4133 ms	$0.000499	stop
`challenge-if-001`	instruction_following	PASS	`-`	1.0	6030 ms	$0.001544	stop
`challenge-if-002`	instruction_following	PASS	`-`	1.0	10039 ms	$0.001288	stop
`challenge-if-003`	instruction_following	PASS	`-`	1.0	16768 ms	$0.004222	stop
`challenge-zh-writing-001`	chinese_writing	PASS	`-`	1.0	18327 ms	$0.003104	stop
`challenge-zh-writing-002`	chinese_writing	PASS	`-`	1.0	23945 ms	$0.002675	stop
`challenge-coding-009`	coding	PASS	`-`	1.0	17762 ms	$0.000957	stop
`challenge-coding-010`	coding	PASS	`-`	1.0	7408 ms	$0.001108	stop
`challenge-coding-011`	coding	PASS	`-`	1.0	5105 ms	$0.000831	stop
`challenge-coding-012`	coding	PASS	`-`	1.0	32640 ms	$0.001093	stop
`challenge-coding-013`	coding	PASS	`-`	1.0	4064 ms	$0.000699	stop
`challenge-coding-014`	coding	PASS	`-`	1.0	211278 ms	$0.056260	stop
`challenge-debugging-009`	debugging	PASS	`-`	1.0	4498 ms	$0.000734	stop
`challenge-debugging-010`	debugging	PASS	`-`	1.0	6777 ms	$0.001079	stop
`challenge-debugging-011`	debugging	PASS	`-`	1.0	5472 ms	$0.000700	stop
`challenge-debugging-012`	debugging	PASS	`-`	1.0	4433 ms	$0.000664	stop
`challenge-debugging-013`	debugging	PASS	`-`	1.0	7900 ms	$0.000794	stop
`challenge-debugging-014`	debugging	PASS	`-`	1.0	14115 ms	$0.001279	stop
`challenge-reasoning-006`	reasoning	PASS	`-`	1.0	6492 ms	$0.000921	stop
`challenge-reasoning-007`	reasoning	PASS	`-`	1.0	7523 ms	$0.001185	stop
`challenge-rag-005`	rag_long_context	PASS	`-`	1.0	4527 ms	$0.001023	stop
`challenge-rag-006`	rag_long_context	FAIL	`missing_required_info`	0.0	3256 ms	$0.000532	stop
`challenge-rag-007`	rag_long_context	PASS	`-`	1.0	6627 ms	$0.000673	stop
`challenge-if-004`	instruction_following	PASS	`-`	1.0	13842 ms	$0.001685	stop
`challenge-if-005`	instruction_following	PASS	`-`	1.0	9240 ms	$0.001764	stop
`challenge-zh-writing-003`	chinese_writing	PASS	`-`	1.0	12498 ms	$0.003375	stop
`challenge-reasoning-008`	reasoning	PASS	`-`	1.0	4204 ms	$0.000771	stop
`challenge-reasoning-009`	reasoning	PASS	`-`	1.0	14986 ms	$0.002655	stop
`challenge-reasoning-010`	reasoning	PASS	`-`	1.0	9726 ms	$0.000894	stop
`challenge-reasoning-011`	reasoning	PASS	`-`	1.0	3630 ms	$0.001005	stop
`challenge-reasoning-012`	reasoning	PASS	`-`	1.0	3689 ms	$0.001152	stop
`challenge-reasoning-013`	reasoning	PASS	`-`	1.0	9736 ms	$0.000397	stop
`challenge-reasoning-014`	reasoning	PASS	`-`	1.0	2357 ms	$0.000336	stop
`challenge-reasoning-015`	reasoning	PASS	`-`	1.0	2277 ms	$0.000624	stop
`challenge-reasoning-016`	reasoning	PASS	`-`	1.0	2105 ms	$0.000336	stop
`challenge-reasoning-017`	reasoning	PASS	`-`	1.0	8698 ms	$0.001940	stop
`challenge-reasoning-018`	reasoning	PASS	`-`	1.0	5569 ms	$0.001166	stop
`challenge-reasoning-019`	reasoning	PASS	`-`	1.0	4867 ms	$0.000986	stop
`challenge-reasoning-020`	reasoning	PASS	`-`	1.0	9232 ms	$0.000817	stop
`challenge-reasoning-021`	reasoning	PASS	`-`	1.0	8074 ms	$0.001103	stop
`challenge-reasoning-022`	reasoning	PASS	`-`	1.0	5272 ms	$0.000764	stop
`challenge-reasoning-023`	reasoning	PASS	`-`	1.0	7669 ms	$0.001106	stop
`challenge-reasoning-024`	reasoning	PASS	`-`	1.0	3063 ms	$0.000462	stop
`challenge-reasoning-025`	reasoning	PASS	`-`	1.0	2747 ms	$0.000500	stop
`challenge-coding-015`	coding	FAIL	`code_assertion_failure`	0.0	6322 ms	$0.001225	stop
`challenge-coding-016`	coding	PASS	`-`	1.0	3794 ms	$0.000786	stop
`challenge-coding-017`	coding	PASS	`-`	1.0	6895 ms	$0.001272	stop
`challenge-coding-018`	coding	PASS	`-`	1.0	3467 ms	$0.000492	stop
`challenge-coding-019`	coding	PASS	`-`	1.0	14407 ms	$0.001034	stop
`challenge-coding-020`	coding	PASS	`-`	1.0	6817 ms	$0.001363	stop
`challenge-coding-021`	coding	PASS	`-`	1.0	4524 ms	$0.000543	stop
`challenge-coding-022`	coding	PASS	`-`	1.0	10059 ms	$0.001032	stop
`challenge-coding-023`	coding	PASS	`-`	1.0	15326 ms	$0.000785	stop
`challenge-coding-024`	coding	PASS	`-`	1.0	8528 ms	$0.002705	stop
`challenge-coding-025`	coding	PASS	`-`	1.0	8108 ms	$0.001441	stop
`challenge-coding-026`	coding	PASS	`-`	1.0	9808 ms	$0.002569	stop
`challenge-coding-027`	coding	PASS	`-`	1.0	8770 ms	$0.001662	stop
`challenge-coding-028`	coding	PASS	`-`	1.0	22250 ms	$0.001109	stop
`challenge-rag-008`	rag_long_context	PASS	`-`	1.0	9528 ms	$0.001069	stop
`challenge-rag-009`	rag_long_context	PASS	`-`	1.0	5321 ms	$0.000769	stop
`challenge-rag-010`	rag_long_context	PASS	`-`	1.0	6093 ms	$0.001308	stop
`challenge-rag-011`	rag_long_context	PASS	`-`	1.0	5288 ms	$0.000575	stop
`challenge-rag-012`	rag_long_context	PASS	`-`	1.0	3932 ms	$0.000558	stop
`challenge-rag-013`	rag_long_context	PASS	`-`	1.0	12926 ms	$0.000901	stop
`challenge-rag-014`	rag_long_context	PASS	`-`	1.0	2689 ms	$0.000386	stop
`challenge-rag-015`	rag_long_context	PASS	`-`	1.0	5870 ms	$0.001120	stop
`challenge-rag-016`	rag_long_context	PASS	`-`	1.0	2019 ms	$0.000264	stop
`challenge-rag-017`	rag_long_context	PASS	`-`	1.0	6072 ms	$0.000892	stop
`challenge-rag-018`	rag_long_context	PASS	`-`	1.0	7698 ms	$0.000768	stop
`challenge-debugging-015`	debugging	PASS	`-`	1.0	5585 ms	$0.000579	stop
`challenge-debugging-016`	debugging	PASS	`-`	1.0	2442 ms	$0.000494	stop
`challenge-debugging-017`	debugging	PASS	`-`	1.0	4191 ms	$0.000456	stop
`challenge-debugging-018`	debugging	PASS	`-`	1.0	6677 ms	$0.000807	stop
`challenge-debugging-019`	debugging	PASS	`-`	1.0	1806 ms	$0.000286	stop
`challenge-if-006`	instruction_following	PASS	`-`	1.0	6968 ms	$0.002283	stop
`challenge-zh-writing-004`	chinese_writing	PASS	`-`	1.0	16085 ms	$0.003418	stop