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chatglm.h
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chatglm.h
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#pragma once
#include <cmath>
#include <ggml.h>
#include <iomanip>
#include <sentencepiece_processor.h>
#include <sstream>
#include <unordered_map>
#ifdef GGML_USE_METAL
#include <ggml-metal.h>
#endif
namespace chatglm {
// ===== common =====
static constexpr size_t MB = 1024 * 1024;
class LogMessageFatal {
public:
LogMessageFatal(const char *file, int line) { oss_ << file << ':' << line << ' '; }
[[noreturn]] ~LogMessageFatal() noexcept(false) { throw std::runtime_error(oss_.str()); }
std::ostringstream &stream() { return oss_; }
private:
std::ostringstream oss_;
};
#define CHATGLM_THROW ::chatglm::LogMessageFatal(__FILE__, __LINE__).stream()
#define CHATGLM_CHECK(cond) \
if (!(cond)) \
CHATGLM_THROW << "check failed (" #cond ") "
#define CHATGLM_CHECK_CUDA(call) \
do { \
cudaError_t error = (call); \
CHATGLM_CHECK(error == cudaSuccess) << "CUDA error: " << cudaGetErrorString(error); \
} while (0)
std::string to_string(ggml_tensor *tensor, bool with_data = true);
ggml_tensor *tensor_assign_buffers(ggml_tensor *tensor);
ggml_tensor *tensor_to_device(ggml_tensor *tensor);
ggml_tensor *tensor_to_cpu(ggml_tensor *tensor);
enum class ModelType {
CHATGLM = 1,
CHATGLM2 = 2,
CHATGLM3 = 3,
BAICHUAN7B = 1024,
BAICHUAN13B = 1025,
INTERNLM = 1280,
};
std::string to_string(ModelType model_type);
// For compatibility
struct ConfigRecordV1 {
// common attributes
ggml_type dtype;
int vocab_size;
int hidden_size;
int num_attention_heads;
int num_hidden_layers;
int intermediate_size;
// for sequence generation
int max_length;
// for tokenizer
int bos_token_id;
int eos_token_id;
int pad_token_id;
int sep_token_id;
};
// For compatibility
struct ConfigRecordV2 : public ConfigRecordV1 {
int num_kv_heads;
};
enum class ActivationType {
GELU,
SILU,
};
enum class RopeType {
GPTJ = 0,
NEOX = 2,
CHATGLM = 4,
DISABLED = 10000,
};
enum class AttentionMaskType {
CAUSAL,
CHATGLM,
};
// Should save kv record of ModelConfig in the future
class ModelConfig {
public:
ModelConfig() = default;
ModelConfig(ModelType model_type, ggml_type dtype, int vocab_size, int hidden_size, int num_attention_heads,
int num_kv_heads, int num_hidden_layers, int intermediate_size, float norm_eps,
ActivationType hidden_act, bool use_qkv_bias, bool use_dense_bias, bool interleaved_qkv, bool use_alibi,
RopeType rope_type, int rope_dim_scale, AttentionMaskType attn_mask_type, int max_length,
int bos_token_id, int eos_token_id, int pad_token_id, int sep_token_id,
std::vector<int> extra_eos_token_ids)
: model_type(model_type), dtype(dtype), vocab_size(vocab_size), hidden_size(hidden_size),
num_attention_heads(num_attention_heads), num_kv_heads(num_kv_heads), num_hidden_layers(num_hidden_layers),
intermediate_size(intermediate_size), norm_eps(norm_eps), hidden_act(hidden_act), use_qkv_bias(use_qkv_bias),
use_dense_bias(use_dense_bias), interleaved_qkv(interleaved_qkv), use_alibi(use_alibi), rope_type(rope_type),
rope_dim_scale(rope_dim_scale), attn_mask_type(attn_mask_type), max_length(max_length),
bos_token_id(bos_token_id), eos_token_id(eos_token_id), pad_token_id(pad_token_id),
sep_token_id(sep_token_id), extra_eos_token_ids(std::move(extra_eos_token_ids)) {}
ModelConfig(ModelType model_type, const ConfigRecordV1 &rec, float norm_eps, ActivationType hidden_act,
bool use_qkv_bias, bool use_dense_bias, bool interleaved_qkv, bool use_alibi, RopeType rope_type,
int rope_dim_scale, AttentionMaskType attn_mask_type)
: ModelConfig(model_type, rec.dtype, rec.vocab_size, rec.hidden_size, rec.num_attention_heads,
rec.num_attention_heads, rec.num_hidden_layers, rec.intermediate_size, norm_eps, hidden_act,
use_qkv_bias, use_dense_bias, interleaved_qkv, use_alibi, rope_type, rope_dim_scale,
attn_mask_type, rec.max_length, rec.bos_token_id, rec.eos_token_id, rec.pad_token_id,
rec.sep_token_id, {}) {}
ModelConfig(ModelType model_type, const ConfigRecordV2 &rec, float norm_eps, ActivationType hidden_act,
bool use_qkv_bias, bool use_dense_bias, bool interleaved_qkv, bool use_alibi, RopeType rope_type,
int rope_dim_scale, AttentionMaskType attn_mask_type)
: ModelConfig(model_type, rec.dtype, rec.vocab_size, rec.hidden_size, rec.num_attention_heads, rec.num_kv_heads,
rec.num_hidden_layers, rec.intermediate_size, norm_eps, hidden_act, use_qkv_bias, use_dense_bias,
interleaved_qkv, use_alibi, rope_type, rope_dim_scale, attn_mask_type, rec.max_length,
rec.bos_token_id, rec.eos_token_id, rec.pad_token_id, rec.sep_token_id, {}) {}
std::string model_type_name() const { return to_string(model_type); }
public:
ModelType model_type;
ggml_type dtype;
int vocab_size;
int hidden_size;
int num_attention_heads;
int num_kv_heads;
int num_hidden_layers;
int intermediate_size;
float norm_eps;
ActivationType hidden_act;
bool use_qkv_bias;
bool use_dense_bias;
bool interleaved_qkv;
bool use_alibi;
RopeType rope_type;
int rope_dim_scale;
AttentionMaskType attn_mask_type;
int max_length;
int bos_token_id;
int eos_token_id;
int pad_token_id;
int sep_token_id;
std::vector<int> extra_eos_token_ids;
};
struct FunctionMessage {
std::string name;
std::string arguments;
FunctionMessage() = default;
FunctionMessage(std::string name, std::string arguments) : name(std::move(name)), arguments(std::move(arguments)) {}
friend std::ostream &operator<<(std::ostream &os, const FunctionMessage &self) {
return os << "FunctionMessage(name=" << std::quoted(self.name) << ", arguments=" << std::quoted(self.arguments)
<< ")";
}
};
struct CodeMessage {
std::string input;
CodeMessage() = default;
CodeMessage(std::string input) : input(std::move(input)) {}
friend std::ostream &operator<<(std::ostream &os, const CodeMessage &self) {
return os << "CodeMessage(input=" << std::quoted(self.input) << ")";
}
};
struct ToolCallMessage {
std::string type;
FunctionMessage function;
CodeMessage code;
static const std::string TYPE_FUNCTION;
static const std::string TYPE_CODE;
ToolCallMessage(FunctionMessage function) : type(TYPE_FUNCTION), function(std::move(function)) {}
ToolCallMessage(CodeMessage code) : type(TYPE_CODE), code(std::move(code)) {}
friend std::ostream &operator<<(std::ostream &os, const ToolCallMessage &self) {
return os << "ToolCallMessage(type=" << std::quoted(self.type) << ", function=" << self.function
<< ", code=" << self.code << ")";
}
};
struct ChatMessage {
std::string role;
std::string content;
std::vector<ToolCallMessage> tool_calls;
static const std::string ROLE_USER;
static const std::string ROLE_ASSISTANT;
static const std::string ROLE_SYSTEM;
static const std::string ROLE_OBSERVATION;
ChatMessage() = default;
ChatMessage(std::string role, std::string content, std::vector<ToolCallMessage> tool_calls = {})
: role(std::move(role)), content(std::move(content)), tool_calls(std::move(tool_calls)) {}
friend std::ostream &operator<<(std::ostream &os, const ChatMessage &self) {
os << "ChatMessage(role=" << std::quoted(self.role) << ", content=" << std::quoted(self.content)
<< ", tool_calls=[";
for (size_t i = 0; i < self.tool_calls.size(); i++) {
os << (i > 0 ? ", " : "") << self.tool_calls[i];
}
return os << "])";
}
};
class BaseTokenizer {
public:
virtual ~BaseTokenizer() = default;
virtual std::vector<int> encode(const std::string &text, int max_length) const = 0;
virtual std::string decode(const std::vector<int> &ids) const = 0;
virtual std::vector<int> encode_messages(const std::vector<ChatMessage> &messages, int max_length) const = 0;
virtual ChatMessage decode_message(const std::vector<int> &ids) const {
return {ChatMessage::ROLE_ASSISTANT, decode(ids)};
}
protected:
static void check_chat_messages(const std::vector<ChatMessage> &messages);
};
struct ggml_context_deleter_t {
void operator()(ggml_context *ctx) const noexcept { ggml_free(ctx); }
};
using unique_ggml_context_t = std::unique_ptr<ggml_context, ggml_context_deleter_t>;
static inline unique_ggml_context_t make_unique_ggml_context(size_t mem_size, void *mem_buffer, bool no_alloc) {
return unique_ggml_context_t(ggml_init({mem_size, mem_buffer, no_alloc}));
}
#ifdef GGML_USE_METAL
struct ggml_metal_context_deleter_t {
void operator()(ggml_metal_context *ctx) const noexcept { ggml_metal_free(ctx); }
};
using unique_ggml_metal_context_t = std::unique_ptr<ggml_metal_context, ggml_metal_context_deleter_t>;
static inline unique_ggml_metal_context_t make_unique_ggml_metal_context(int n_cb) {
return unique_ggml_metal_context_t(ggml_metal_init(n_cb));
}
#endif
// reference: https://stackoverflow.com/questions/11149665/c-vector-that-doesnt-initialize-its-members
struct uninitialized_char {
char m;
uninitialized_char() {}
};
void ggml_graph_compute_helper(std::vector<uninitialized_char> &buf, ggml_cgraph *graph, int n_threads);
struct ModelContext {
ggml_type dtype;
unique_ggml_context_t ctx_w; // weight
unique_ggml_context_t ctx_kv; // kv cache
unique_ggml_context_t ctx_b; // buffer
#ifdef GGML_USE_METAL
unique_ggml_metal_context_t ctx_metal;
#endif
ggml_cgraph gf;
ggml_scratch scratch;
std::vector<uninitialized_char> compute_buffer; // BLAS buffer
std::vector<uninitialized_char> scratch_buffer; // intermediate tensor buffer
std::string_view weight_buffer; // mapped weight
std::vector<uninitialized_char> work_buffer; // temporary buffer for graph computing
void init_device_context();
};
class Embedding {
public:
Embedding() : weight(nullptr) {}
Embedding(ModelContext *ctx, int num_embeddings, int embedding_dim)
: weight(ggml_new_tensor_2d(ctx->ctx_w.get(), ctx->dtype, embedding_dim, num_embeddings)) {}
ggml_tensor *forward(ModelContext *ctx, ggml_tensor *input) const;
public:
ggml_tensor *weight;
};
class Linear {
public:
Linear() : weight(nullptr), bias(nullptr) {}
Linear(ModelContext *ctx, int in_features, int out_features, bool use_bias = true)
: weight(ggml_new_tensor_2d(ctx->ctx_w.get(), ctx->dtype, in_features, out_features)),
bias(use_bias ? ggml_new_tensor_1d(ctx->ctx_w.get(), GGML_TYPE_F32, out_features) : nullptr) {}
int in_features() const { return weight->ne[0]; }
int out_features() const { return weight->ne[1]; }
ggml_tensor *forward(ModelContext *ctx, ggml_tensor *input) const;
public:
ggml_tensor *weight; // [out_features, in_features]
ggml_tensor *bias; // [out_features]
};
class LayerNorm {
public:
LayerNorm() = default;
LayerNorm(ModelContext *ctx, int normalized_shape, bool inplace = true, float eps = 1e-5f)
: weight(ggml_new_tensor_1d(ctx->ctx_w.get(), GGML_TYPE_F32, normalized_shape)),
bias(ggml_new_tensor_1d(ctx->ctx_w.get(), GGML_TYPE_F32, normalized_shape)), inplace(inplace), eps(eps) {}
ggml_tensor *forward(ModelContext *ctx, ggml_tensor *input) const;
public:
ggml_tensor *weight; // [normalized_shape]
ggml_tensor *bias; // [normalized_shape]
bool inplace;
float eps;
};
class RMSNorm {
public:
RMSNorm() = default;
RMSNorm(ModelContext *ctx, int normalized_shape, bool inplace = true, float eps = 1e-5f)
: weight(ggml_new_tensor_1d(ctx->ctx_w.get(), GGML_TYPE_F32, normalized_shape)), inplace(inplace), eps(eps) {}
ggml_tensor *forward(ModelContext *ctx, ggml_tensor *input) const;
public:
ggml_tensor *weight; // [normalized_shape]
bool inplace;
float eps;
};
class BasicMLP {
public:
BasicMLP() = default;
BasicMLP(ModelContext *ctx, int hidden_size, int intermediate_size, ActivationType hidden_act)
: dense_h_to_4h(ctx, hidden_size, intermediate_size), dense_4h_to_h(ctx, intermediate_size, hidden_size),
hidden_act(hidden_act) {}
ggml_tensor *forward(ModelContext *ctx, ggml_tensor *hidden_states) const;
public:
Linear dense_h_to_4h;
Linear dense_4h_to_h;
ActivationType hidden_act;
};
class BasicGLU {
public:
BasicGLU() = default;
BasicGLU(ModelContext *ctx, int hidden_size, int intermediate_size, ActivationType hidden_act)
: gate_proj(ctx, hidden_size, intermediate_size, false), up_proj(ctx, hidden_size, intermediate_size, false),
down_proj(ctx, intermediate_size, hidden_size, false), hidden_act(hidden_act) {}
ggml_tensor *forward(ModelContext *ctx, ggml_tensor *hidden_states) const;
public:
Linear gate_proj;
Linear up_proj;
Linear down_proj;
ActivationType hidden_act;
};
class BasicAttention {
public:
BasicAttention() = default;
BasicAttention(ModelContext *ctx, int hidden_size, int num_attention_heads, int num_kv_heads, int max_length,
bool use_qkv_bias, bool use_dense_bias, bool interleaved_qkv, bool use_alibi, RopeType rope_type,
int rope_dim_scale, AttentionMaskType attn_mask_type)
: num_attention_heads(num_attention_heads), num_kv_heads(num_kv_heads), interleaved_qkv(interleaved_qkv),
use_alibi(use_alibi), rope_type(rope_type), rope_dim_scale(rope_dim_scale), attn_mask_type(attn_mask_type),
query_key_value(ctx, hidden_size, hidden_size + 2 * (hidden_size / num_attention_heads) * num_kv_heads,
use_qkv_bias),
dense(ctx, hidden_size, hidden_size, use_dense_bias),
k_cache(ggml_new_tensor_3d(ctx->ctx_kv.get(), GGML_TYPE_F16, hidden_size / num_attention_heads, max_length,
num_kv_heads)),
v_cache(ggml_new_tensor_3d(ctx->ctx_kv.get(), GGML_TYPE_F16, max_length, hidden_size / num_attention_heads,
num_kv_heads)) {}
ggml_tensor *forward(ModelContext *ctx, ggml_tensor *hidden_states, ggml_tensor *position_ids, int n_past,
int n_ctx) const;
public:
int num_attention_heads;
int num_kv_heads;
bool interleaved_qkv;
bool use_alibi;
RopeType rope_type;
int rope_dim_scale;
AttentionMaskType attn_mask_type;
Linear query_key_value;
Linear dense;
ggml_tensor *k_cache; // [kv_heads, max_len, head_size]
ggml_tensor *v_cache; // [kv_heads, head_size, max_len]
};
template <typename Norm, typename Attention, typename MLP>
class BasicBlock {
public:
BasicBlock() = default;
BasicBlock(ModelContext *ctx, int hidden_size, int num_attention_heads, int num_kv_heads, int intermediate_size,
int max_length, float norm_eps, ActivationType hidden_act, bool use_qkv_bias, bool use_dense_bias,
bool interleaved_qkv, bool use_alibi, RopeType rope_type, int rope_dim_scale,
AttentionMaskType attn_mask_type)
: input_layernorm(ctx, hidden_size, false, norm_eps),
attention(ctx, hidden_size, num_attention_heads, num_kv_heads, max_length, use_qkv_bias, use_dense_bias,
interleaved_qkv, use_alibi, rope_type, rope_dim_scale, attn_mask_type),
post_attention_layernorm(ctx, hidden_size, false, norm_eps),
mlp(ctx, hidden_size, intermediate_size, hidden_act) {}
ggml_tensor *forward(ModelContext *ctx, ggml_tensor *hidden_states, ggml_tensor *position_ids, int n_past,
int n_ctx) const {
ggml_context *gctx = ctx->ctx_b.get();
ggml_tensor *residual = hidden_states;
hidden_states = input_layernorm.forward(ctx, hidden_states);
hidden_states = attention.forward(ctx, hidden_states, position_ids, n_past, n_ctx);
hidden_states = tensor_assign_buffers(ggml_add_inplace(gctx, hidden_states, residual));
residual = hidden_states;
hidden_states = post_attention_layernorm.forward(ctx, hidden_states);
hidden_states = mlp.forward(ctx, hidden_states);
hidden_states = tensor_assign_buffers(ggml_add_inplace(gctx, hidden_states, residual));
return hidden_states;
}
protected:
BasicBlock(Norm input_layernorm, Attention attention, Norm post_attention_layernorm, MLP mlp)
: input_layernorm(input_layernorm), attention(attention), post_attention_layernorm(post_attention_layernorm),
mlp(mlp) {}
public:
Norm input_layernorm;
Attention attention;
Norm post_attention_layernorm;
MLP mlp;
};
struct NoopPositionIdsGenerator {
ggml_tensor *operator()(ggml_context *ctx, int qlen, int n_past, int n_ctx) const { return nullptr; }
};
struct BasicPositionIdsGenerator {
ggml_tensor *operator()(ggml_context *ctx, int qlen, int n_past, int n_ctx) const {
ggml_tensor *position_ids = ggml_new_tensor_1d(ctx, GGML_TYPE_I32, qlen);
for (int i = 0; i < qlen; i++) {
((int *)position_ids->data)[i] = n_past + i;
}
return position_ids;
}
};
struct GLMPositionIdsGenerator {
ggml_tensor *operator()(ggml_context *ctx, int qlen, int n_past, int n_ctx) const {
ggml_tensor *position_ids = ggml_new_tensor_1d(ctx, GGML_TYPE_I32, qlen * 2);
for (int i = 0; i < qlen; i++) {
const int p = n_past + i;
((int *)position_ids->data)[i] = std::min(p, n_ctx - 2);
((int *)position_ids->data)[qlen + i] = std::max(p - (n_ctx - 2), 0);
}
return position_ids;
}
};
template <typename Block, typename Norm, typename PositionIdsGenerator>
class BasicModel {
public:
BasicModel() = default;
BasicModel(Embedding word_embeddings, std::vector<Block> layers, Norm final_layernorm)
: word_embeddings(word_embeddings), layers(std::move(layers)), final_layernorm(final_layernorm) {}
BasicModel(ModelContext *ctx, const ModelConfig &config)
: word_embeddings(ctx, config.vocab_size, config.hidden_size), layers(build_layers(ctx, config)),
final_layernorm(ctx, config.hidden_size) {}
ggml_tensor *forward(ModelContext *ctx, ggml_tensor *input_ids, int n_past, int n_ctx) const {
ggml_context *gctx = ctx->ctx_b.get();
ggml_tensor *position_ids = pos_ids_gen_(gctx, input_ids->ne[0], n_past, n_ctx);
if (position_ids) {
tensor_to_device(position_ids);
}
ggml_tensor *hidden_states = word_embeddings.forward(ctx, input_ids);
for (const auto &layer : layers) {
ggml_set_scratch(gctx, ctx->scratch);
hidden_states = layer.forward(ctx, hidden_states, position_ids, n_past, n_ctx);
}
if (position_ids) {
tensor_to_cpu(position_ids);
}
ggml_scratch empty_scratch = {0, 0, nullptr};
ggml_set_scratch(gctx, empty_scratch);
hidden_states = final_layernorm.forward(ctx, hidden_states);
return hidden_states;
}
private:
std::vector<Block> build_layers(ModelContext *ctx, const ModelConfig &config) {
std::vector<Block> layers;
layers.reserve(config.num_hidden_layers);
for (int layer_id = 0; layer_id < config.num_hidden_layers; layer_id++) {
// TODO: reduce max length? 32k might be too large for cpu inference
layers.emplace_back(ctx, config.hidden_size, config.num_attention_heads, config.num_kv_heads,
config.intermediate_size, config.max_length, config.norm_eps, config.hidden_act,
config.use_qkv_bias, config.use_dense_bias, config.interleaved_qkv, config.use_alibi,
config.rope_type, config.rope_dim_scale, config.attn_mask_type);
}
return layers;
}
public:
Embedding word_embeddings;
std::vector<Block> layers;
Norm final_layernorm;
private:
PositionIdsGenerator pos_ids_gen_;
};
class BaseStreamer {
public:
virtual ~BaseStreamer() = default;
virtual void put(const std::vector<int> &output_ids) = 0;
virtual void end() = 0;
};
class StreamerGroup : public BaseStreamer {
public:
StreamerGroup(std::vector<std::shared_ptr<BaseStreamer>> streamers) : streamers_(std::move(streamers)) {}
void put(const std::vector<int> &output_ids) override;
void end() override;
private:
std::vector<std::shared_ptr<BaseStreamer>> streamers_;
};
// reference: https://github.com/huggingface/transformers/blob/main/src/transformers/generation/streamers.py
class TextStreamer : public BaseStreamer {
public:
TextStreamer(std::ostream &os, BaseTokenizer *tokenizer)
: os_(os), tokenizer_(tokenizer), is_prompt_(true), is_first_line_(true), print_len_(0) {}
void put(const std::vector<int> &output_ids) override;
void end() override;
private:
std::ostream &os_;
BaseTokenizer *tokenizer_;
bool is_prompt_;
bool is_first_line_;
std::vector<int> token_cache_;
int print_len_;
};
class PerfStreamer : public BaseStreamer {
public:
PerfStreamer() : start_us_(0), prompt_us_(0), end_us_(0), num_prompt_tokens_(0), num_output_tokens_(0) {}
void put(const std::vector<int> &output_ids) override;
void end() override { end_us_ = ggml_time_us(); }
void reset();
std::string to_string() const;
int64_t num_prompt_tokens() const { return num_prompt_tokens_; }
int64_t prompt_total_time_us() const { return prompt_us_ - start_us_; }
int64_t prompt_token_time_us() const {
return num_prompt_tokens() ? prompt_total_time_us() / num_prompt_tokens() : 0;
}
int64_t num_output_tokens() const { return num_output_tokens_; }
int64_t output_total_time_us() const { return end_us_ - prompt_us_; }
int64_t output_token_time_us() const {
return num_output_tokens() ? output_total_time_us() / num_output_tokens() : 0;
}
private:
int64_t start_us_;
int64_t prompt_us_;
int64_t end_us_;
int64_t num_prompt_tokens_;
int64_t num_output_tokens_;
};
class MappedFile {
public:
MappedFile(const std::string &path);
~MappedFile();
public:
char *data;
size_t size;
};
class ModelLoader {
public:
ModelLoader(char *data, size_t size) : data(data), size(size), ptr(data) {}
int64_t tell() const { return ptr - data; }
void seek(int64_t offset, int whence);
template <typename T>
T read_basic() {
T obj = *(T *)ptr;
ptr += sizeof(T);
return obj;
}
std::string read_string(size_t length);
void checked_read_tensor_meta(const std::string &name, int ndim, int64_t *ne, ggml_type dtype);
void *read_tensor_data(size_t nbytes);
void read_tensor(const std::string &name, ggml_tensor *tensor);
public:
char *data;
size_t size;
char *ptr;
};
// ===== generation =====
struct GenerationConfig {
int max_length;
int max_new_tokens;
int max_context_length;
bool do_sample;
int top_k;
float top_p;
float temperature;
float repetition_penalty;
int num_threads;
GenerationConfig(int max_length = 2048, int max_new_tokens = -1, int max_context_length = 512,
bool do_sample = true, int top_k = 0, float top_p = 0.7, float temperature = 0.95,
float repetition_penalty = 1.f, int num_threads = 0)
: max_length(max_length), max_new_tokens(max_new_tokens), max_context_length(max_context_length),
do_sample(do_sample), top_k(top_k), top_p(top_p), temperature(temperature),
repetition_penalty(repetition_penalty), num_threads(num_threads) {}
};
int get_num_physical_cores();
int get_default_num_threads();
struct TokenIdScore {
int id;
float score;
TokenIdScore() = default;
TokenIdScore(int id, float score) : id(id), score(score) {}
bool operator<(const TokenIdScore &other) const { return score < other.score; }
bool operator>(const TokenIdScore &other) const { return score > other.score; }
friend std::ostream &operator<<(std::ostream &os, const TokenIdScore &self) {
return os << "TokenIdScore(id=" << self.id << ", score=" << self.score << ")";
}
};
class BaseModelForCausalLM {
public:
BaseModelForCausalLM(ModelConfig config, size_t mem_size, size_t scratch_size, size_t num_weights);
virtual ~BaseModelForCausalLM() = default;
virtual void load(ModelLoader &loader) = 0;
virtual ggml_tensor *forward(ModelContext *ctx, ggml_tensor *input_ids, int n_past, int n_ctx,
bool is_decoding) const = 0;
ggml_tensor *forward_graph_compute(const std::vector<int> &input_ids, int n_past, int n_ctx, int n_threads,
bool is_decoding);
std::vector<int> generate(const std::vector<int> &input_ids, const GenerationConfig &gen_config,
BaseStreamer *streamer = nullptr);
int generate_next_token(const std::vector<int> &input_ids, const GenerationConfig &gen_config, int n_past,
int n_ctx);
// logits processor
static void sampling_repetition_penalty(float *first, float *last, const std::vector<int> &input_ids,
float penalty);
// logits warper
static void sampling_temperature(float *first, float *last, float temp);
static void sampling_top_k(TokenIdScore *first, TokenIdScore *kth, TokenIdScore *last);
static TokenIdScore *sampling_top_p(TokenIdScore *first, TokenIdScore *last, float top_p);
static void sampling_softmax_inplace(TokenIdScore *first, TokenIdScore *last);
protected:
ModelContext ctx_;
public:
ModelConfig config;
};
using StateDict = std::vector<std::pair<std::string, ggml_tensor *>>;
template <typename Model>
class BasicModelForCausalLM : public BaseModelForCausalLM {
protected:
BasicModelForCausalLM(const ModelConfig &config, size_t mem_size, size_t scratch_size, size_t num_weights)
: BaseModelForCausalLM(config, mem_size, scratch_size, num_weights), transformer(&ctx_, config),
lm_head(&ctx_, config.hidden_size, config.vocab_size, false) {
CHATGLM_CHECK(ggml_used_mem(ctx_.ctx_w.get()) == ggml_get_mem_size(ctx_.ctx_w.get()))
<< "corrupted model weights";
CHATGLM_CHECK(ggml_used_mem(ctx_.ctx_kv.get()) + 1 * MB == ggml_get_mem_size(ctx_.ctx_kv.get()))
<< "corrupted kv cache";
}
~BasicModelForCausalLM() { to_cpu(); }
public:
ggml_tensor *forward(ModelContext *ctx, ggml_tensor *input_ids, int n_past, int n_ctx,
bool is_decoding) const override {
ggml_tensor *transformer_outputs = transformer.forward(ctx, input_ids, n_past, n_ctx);
// NOTE: only compute next token logits for decoding
if (is_decoding && input_ids->ne[0] > 1) {
transformer_outputs = tensor_assign_buffers(
ggml_view_1d(ctx->ctx_b.get(), transformer_outputs, config.hidden_size,
(input_ids->ne[0] - 1) * config.hidden_size * ggml_element_size(transformer_outputs)));
}
ggml_tensor *lm_logits = lm_head.forward(ctx, transformer_outputs);
return lm_logits;
}
protected:
void to_cpu() {
for (auto &item : state_dict_) {
tensor_to_cpu(item.second);
}
for (auto &layer : transformer.layers) {
tensor_to_cpu(layer.attention.k_cache);
tensor_to_cpu(layer.attention.v_cache);
}
}
void to_device() {
for (auto &item : state_dict_) {
ggml_tensor *tensor = item.second;
// should not place embedding onto device
if (tensor != transformer.word_embeddings.weight) {
tensor_to_device(tensor);
}
}
for (auto &layer : transformer.layers) {
tensor_to_device(layer.attention.k_cache);
tensor_to_device(layer.attention.v_cache);
}
}
public:
Model transformer;
Linear lm_head;
protected:
StateDict state_dict_;
};
// ===== ChatGLM-6B =====
class ChatGLMTokenizer : public BaseTokenizer {
public:
ChatGLMTokenizer(std::string_view serialized_model_proto);
std::vector<int> encode(const std::string &text, int max_length) const override;
std::string decode(const std::vector<int> &ids) const override;
std::vector<int> encode_messages(const std::vector<ChatMessage> &messages, int max_length) const override;
static std::string build_prompt(const std::vector<ChatMessage> &messages);
private:
static std::string preprocess(const std::string &text);
static std::string postprocess(const std::string &text);
public:
sentencepiece::SentencePieceProcessor sp;
int bos_token_id;
int eos_token_id;
int mask_token_id;
int gmask_token_id;
int pad_token_id;
};
struct GLMContextMasker {
ggml_tensor *operator()(ModelContext *ctx, ggml_tensor *attn_scores, int n_past) const;
};
// NOTE: disable inplace norm since it causes nonsense on cuda when sequence length >= 144
class GLMBlock : public BasicBlock<LayerNorm, BasicAttention, BasicMLP> {
public:
GLMBlock() = default;
GLMBlock(ModelContext *ctx, int hidden_size, int num_attention_heads, int num_kv_heads, int intermediate_size,
int max_length, float norm_eps, ActivationType hidden_act, bool use_qkv_bias, bool use_dense_bias,
bool interleaved_qkv, bool use_alibi, RopeType rope_type, int rope_dim_scale,
AttentionMaskType attn_mask_type)
: BasicBlock(
LayerNorm(ctx, hidden_size, false, norm_eps),
BasicAttention(ctx, hidden_size, num_attention_heads, num_attention_heads, max_length, use_qkv_bias,
use_dense_bias, interleaved_qkv, use_alibi, rope_type, rope_dim_scale, attn_mask_type),
LayerNorm(ctx, hidden_size, false, norm_eps), BasicMLP(ctx, hidden_size, intermediate_size, hidden_act)),
alpha_value(std::sqrt(2.f * 28)) {}
ggml_tensor *forward(ModelContext *ctx, ggml_tensor *hidden_states, ggml_tensor *position_ids, int n_past,
int n_ctx) const;
public:
float alpha_value;
};
using ChatGLMModel = BasicModel<GLMBlock, LayerNorm, GLMPositionIdsGenerator>;
class ChatGLMForCausalLM : public BasicModelForCausalLM<ChatGLMModel> {
public:
ChatGLMForCausalLM(const ModelConfig &config);
void load(ModelLoader &loader) override;
static int num_weights(int num_hidden_layers) { return 4 + num_hidden_layers * 12; }
private:
StateDict state_dict() const;
public:
static constexpr size_t MEM_SIZE = 1280 * MB; // 2k context
static constexpr size_t SCRATCH_SIZE = 1024 * MB; // 2k context
};
// ===== ChatGLM2-6B =====
class ChatGLM2Tokenizer : public BaseTokenizer {
public:
ChatGLM2Tokenizer(std::string_view serialized_model_proto);
std::vector<int> encode(const std::string &text, int max_length) const override;
std::string decode(const std::vector<int> &ids) const override;
std::vector<int> encode_messages(const std::vector<ChatMessage> &messages, int max_length) const override;
static std::string build_prompt(const std::vector<ChatMessage> &messages);
private:
bool is_special_id(int id) const;
public:
sentencepiece::SentencePieceProcessor sp;
int mask_token_id;
int gmask_token_id;
int smask_token_id;
int sop_token_id;
int eop_token_id;
};
using GLM2Block = BasicBlock<RMSNorm, BasicAttention, BasicGLU>;
using ChatGLM2Model = BasicModel<GLM2Block, RMSNorm, BasicPositionIdsGenerator>;
class ChatGLM2ForCausalLM : public BasicModelForCausalLM<ChatGLM2Model> {
public:
ChatGLM2ForCausalLM(const ModelConfig &config);
void load(ModelLoader &loader) override;
static int num_weights(int num_hidden_layers) { return 3 + num_hidden_layers * 8; }
private:
StateDict state_dict() const;
public:
static constexpr size_t MEM_SIZE = 1280 * MB; // 2k context
static constexpr size_t SCRATCH_SIZE = 1280 * MB; // 2k context
};
// ===== ChatGLM3-6B =====
class ChatGLM3Tokenizer : public BaseTokenizer {
public:
ChatGLM3Tokenizer(std::string_view serialized_model_proto);
std::vector<int> encode(const std::string &text, int max_length) const override;
std::string decode(const std::vector<int> &ids) const override;
std::vector<int> encode_messages(const std::vector<ChatMessage> &messages, int max_length) const override;
ChatMessage decode_message(const std::vector<int> &ids) const override;
private:
std::vector<int> encode_single_message(const std::string &role, const std::string &content) const;
std::string decode_with_special_tokens(const std::vector<int> &ids) const;
static std::string remove_special_tokens(const std::string &text);
int get_command(const std::string &token) const;
bool is_special_id(int id) const;
static void truncate(std::vector<int> &ids, int max_length);
public:
sentencepiece::SentencePieceProcessor sp;
int mask_token_id;
int gmask_token_id;
int smask_token_id;
int sop_token_id;
int eop_token_id;
int system_token_id;
int user_token_id;
int assistant_token_id;
int observation_token_id;
std::unordered_map<std::string, int> special_tokens;
std::unordered_map<int, std::string> index_special_tokens;
};
using ChatGLM3Model = ChatGLM2Model;
using ChatGLM3ForCausalLM = ChatGLM2ForCausalLM;
// ===== Baichuan =====
class BaichuanTokenizer : public BaseTokenizer {
public:
BaichuanTokenizer(std::string_view serialized_model_proto);
std::vector<int> encode(const std::string &text, int max_length) const override;
std::string decode(const std::vector<int> &ids) const override;
std::vector<int> encode_messages(const std::vector<ChatMessage> &messages, int max_length) const override;
private:
bool is_special_id(int id) const;
static void truncate(std::vector<int> &ids, int max_length);
public:
static constexpr int USER_TOKEN_ID = 195;
static constexpr int ASSISTANT_TOKEN_ID = 196;
sentencepiece::SentencePieceProcessor sp;
int bos_token_id;
int eos_token_id;
int pad_token_id;
};
// ===== Baichuan-7B =====
using Baichuan7BBlock = BasicBlock<RMSNorm, BasicAttention, BasicGLU>;
using Baichuan7BModel = BasicModel<Baichuan7BBlock, RMSNorm, BasicPositionIdsGenerator>;
class Baichuan7BForCausalLM : public BasicModelForCausalLM<Baichuan7BModel> {
public:
Baichuan7BForCausalLM(const ModelConfig &config);
void load(ModelLoader &loader) override;
static int num_weights(int num_hidden_layers) { return 3 + num_hidden_layers * 7; }
private:
StateDict state_dict() const;
public:
static constexpr size_t MEM_SIZE = 1280 * MB;
static constexpr size_t SCRATCH_SIZE = 1280 * MB;
};
// ===== Baichuan-13B =====
using Baichuan13BBlock = BasicBlock<RMSNorm, BasicAttention, BasicGLU>;
using Baichuan13BModel = BasicModel<Baichuan13BBlock, RMSNorm, NoopPositionIdsGenerator>;