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Original file line number | Diff line number | Diff line change |
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#include "llama-adapter.h" | ||
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#include "llama-model.h" | ||
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#include <algorithm> | ||
#include <map> | ||
#include <cassert> | ||
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// vec | ||
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struct ggml_tensor * llama_control_vector::tensor_for(int il) const { | ||
if (il < 0 || il < layer_start || il > layer_end || (size_t) il >= tensors.size()) { | ||
return nullptr; | ||
} | ||
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return tensors[il]; | ||
} | ||
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struct ggml_tensor * llama_control_vector::apply_to(struct ggml_context * ctx, struct ggml_tensor * cur, int il) const { | ||
ggml_tensor * layer_dir = tensor_for(il); | ||
if (layer_dir != nullptr) { | ||
cur = ggml_add(ctx, cur, layer_dir); | ||
} | ||
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return cur; | ||
} | ||
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static bool llama_control_vector_init(struct llama_control_vector & cvec, const llama_model & model) { | ||
const auto & hparams = model.hparams; | ||
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GGML_ASSERT(cvec.tensors.empty()); | ||
GGML_ASSERT(cvec.ctxs.empty()); | ||
GGML_ASSERT(cvec.bufs.empty()); | ||
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// create a context for each buffer type | ||
std::map<ggml_backend_buffer_type_t, ggml_context *> ctx_map; | ||
auto ctx_for_buft = [&](ggml_backend_buffer_type_t buft) -> ggml_context * { | ||
auto it = ctx_map.find(buft); | ||
if (it == ctx_map.end()) { | ||
struct ggml_init_params params = { | ||
/*.mem_size =*/ hparams.n_layer*ggml_tensor_overhead(), | ||
/*.mem_buffer =*/ NULL, | ||
/*.no_alloc =*/ true, | ||
}; | ||
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ggml_context * ctx = ggml_init(params); | ||
if (!ctx) { | ||
return nullptr; | ||
} | ||
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ctx_map[buft] = ctx; | ||
cvec.ctxs.emplace_back(ctx); | ||
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return ctx; | ||
} | ||
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return it->second; | ||
}; | ||
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// make tensors | ||
cvec.tensors.reserve(hparams.n_layer); | ||
cvec.tensors.push_back(nullptr); // there's never a tensor for layer 0 | ||
for (size_t il = 1; il < hparams.n_layer; il++) { | ||
ggml_backend_buffer_type_t buft = llama_model_select_buft(model, il); | ||
ggml_context * ctx = ctx_for_buft(buft); | ||
if (!ctx) { | ||
LLAMA_LOG_ERROR("%s: failed to allocate context for control vector\n", __func__); | ||
return false; | ||
} | ||
ggml_tensor * tensor = ggml_new_tensor_1d(ctx, GGML_TYPE_F32, hparams.n_embd); | ||
cvec.tensors.push_back(tensor); | ||
} | ||
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// allocate tensors / buffers and zero | ||
cvec.bufs.reserve(ctx_map.size()); | ||
for (auto it : ctx_map) { | ||
ggml_backend_buffer_type_t buft = it.first; | ||
ggml_context * ctx = it.second; | ||
ggml_backend_buffer_t buf = ggml_backend_alloc_ctx_tensors_from_buft(ctx, buft); | ||
if (!buf) { | ||
LLAMA_LOG_ERROR("%s: failed to allocate buffer for control vector\n", __func__); | ||
return false; | ||
} | ||
ggml_backend_buffer_clear(buf, 0); | ||
cvec.bufs.emplace_back(buf); | ||
} | ||
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return true; | ||
} | ||
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int32_t llama_control_vector_apply( | ||
struct llama_control_vector & cvec, | ||
const llama_model & model, | ||
const float * data, | ||
size_t len, | ||
int32_t n_embd, | ||
int32_t il_start, | ||
int32_t il_end) { | ||
const auto & hparams = model.hparams; | ||
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if (data == nullptr) { | ||
// disable the current control vector (but leave allocated for later) | ||
cvec.layer_start = -1; | ||
cvec.layer_end = -1; | ||
return 0; | ||
} | ||
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if (n_embd != (int) hparams.n_embd) { | ||
LLAMA_LOG_ERROR("%s: control vector n_embd does not match model\n", __func__); | ||
return 1; | ||
} | ||
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if (cvec.tensors.empty()) { | ||
if (!llama_control_vector_init(cvec, model)) { | ||
return 1; | ||
} | ||
} | ||
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cvec.layer_start = il_start; | ||
cvec.layer_end = il_end; | ||
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for (size_t il = 1; il < hparams.n_layer; il++) { | ||
assert(cvec.tensors[il] != nullptr); | ||
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const size_t off = n_embd * (il - 1); // buffer doesn't have data for layer 0, since it's never present | ||
if (off + n_embd <= len) { | ||
ggml_backend_tensor_set(cvec.tensors[il], data + off, 0, n_embd * ggml_element_size(cvec.tensors[il])); | ||
} | ||
} | ||
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return 0; | ||
} | ||
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// lora | ||
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llama_lora_weight * llama_lora_adapter::get_weight(struct ggml_tensor * w) { | ||
const std::string name(w->name); | ||
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const auto pos = ab_map.find(name); | ||
if (pos != ab_map.end()) { | ||
return &pos->second; | ||
} | ||
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return nullptr; | ||
} | ||
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void llama_lora_adapter_free(struct llama_lora_adapter * adapter) { | ||
delete adapter; | ||
} | ||
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void llama_lora_adapter_init_impl(struct llama_model & model, const char * path_lora, struct llama_lora_adapter & adapter) { | ||
LLAMA_LOG_INFO("%s: loading lora adapter from '%s' ...\n", __func__, path_lora); | ||
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ggml_context * ctx_init; | ||
struct gguf_init_params meta_gguf_params = { | ||
/* .no_alloc = */ true, | ||
/* .ctx = */ &ctx_init, | ||
}; | ||
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gguf_context_ptr ctx_gguf { gguf_init_from_file(path_lora, meta_gguf_params) }; | ||
if (!ctx_gguf) { | ||
throw std::runtime_error("failed to load lora adapter file from " + std::string(path_lora)); | ||
} | ||
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ggml_context_ptr ctx { ctx_init }; | ||
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// check metadata | ||
{ | ||
auto get_kv_str = [&](const std::string & key) -> std::string { | ||
int id = gguf_find_key(ctx_gguf.get(), key.c_str()); | ||
return id < 0 ? "" : std::string(gguf_get_val_str(ctx_gguf.get(), id)); | ||
}; | ||
auto get_kv_f32 = [&](const std::string & key) -> float { | ||
int id = gguf_find_key(ctx_gguf.get(), key.c_str()); | ||
return id < 0 ? 0.0f : gguf_get_val_f32(ctx_gguf.get(), id); | ||
}; | ||
LLM_KV llm_kv = LLM_KV(LLM_ARCH_UNKNOWN); | ||
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auto general_type = get_kv_str(llm_kv(LLM_KV_GENERAL_TYPE)); | ||
if (general_type != "adapter") { | ||
throw std::runtime_error("expect general.type to be 'adapter', but got: " + general_type); | ||
} | ||
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auto general_arch_str = get_kv_str(llm_kv(LLM_KV_GENERAL_ARCHITECTURE)); | ||
auto general_arch = llm_arch_from_string(general_arch_str); | ||
if (general_arch != model.arch) { | ||
throw std::runtime_error("model arch and LoRA arch mismatch"); | ||
} | ||
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auto adapter_type = get_kv_str(llm_kv(LLM_KV_ADAPTER_TYPE)); | ||
if (adapter_type != "lora") { | ||
throw std::runtime_error("expect adapter.type to be 'lora', but got: " + adapter_type); | ||
} | ||
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adapter.alpha = get_kv_f32(llm_kv(LLM_KV_ADAPTER_LORA_ALPHA)); | ||
} | ||
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int n_tensors = gguf_get_n_tensors(ctx_gguf.get()); | ||
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// contexts for each buffer type | ||
std::map<ggml_backend_buffer_type_t, ggml_context *> ctx_map; | ||
auto ctx_for_buft = [&](ggml_backend_buffer_type_t buft) -> ggml_context * { | ||
auto it = ctx_map.find(buft); | ||
if (it == ctx_map.end()) { | ||
// add a new context | ||
struct ggml_init_params params = { | ||
/*.mem_size =*/ n_tensors*ggml_tensor_overhead(), | ||
/*.mem_buffer =*/ NULL, | ||
/*.no_alloc =*/ true, | ||
}; | ||
ggml_context * buft_ctx = ggml_init(params); | ||
if (!buft_ctx) { | ||
return nullptr; | ||
} | ||
ctx_map[buft] = buft_ctx; | ||
adapter.ctxs.emplace_back(buft_ctx); | ||
return buft_ctx; | ||
}; | ||
return it->second; | ||
}; | ||
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// bundle lora_a and lora_b into pairs | ||
std::map<std::string, llama_lora_weight> ab_map; | ||
auto str_endswith = [](const std::string & str, const std::string & suffix) { | ||
return str.size() >= suffix.size() && str.compare(str.size()-suffix.size(), suffix.size(), suffix) == 0; | ||
}; | ||
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for (ggml_tensor * cur = ggml_get_first_tensor(ctx.get()); cur; cur = ggml_get_next_tensor(ctx.get(), cur)) { | ||
std::string name(cur->name); | ||
if (str_endswith(name, ".lora_a")) { | ||
replace_all(name, ".lora_a", ""); | ||
if (ab_map.find(name) == ab_map.end()) { | ||
ab_map[name] = llama_lora_weight(cur, nullptr); | ||
} else { | ||
ab_map[name].a = cur; | ||
} | ||
} else if (str_endswith(name, ".lora_b")) { | ||
replace_all(name, ".lora_b", ""); | ||
if (ab_map.find(name) == ab_map.end()) { | ||
ab_map[name] = llama_lora_weight(nullptr, cur); | ||
} else { | ||
ab_map[name].b = cur; | ||
} | ||
} else { | ||
throw std::runtime_error("LoRA tensor '" + name + "' has unexpected suffix"); | ||
} | ||
} | ||
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// add tensors | ||
for (auto & it : ab_map) { | ||
const std::string & name = it.first; | ||
llama_lora_weight & w = it.second; | ||
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if (!w.a || !w.b) { | ||
throw std::runtime_error("LoRA tensor pair for '" + name + "' is missing one component"); | ||
} | ||
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// device buft and device ctx | ||
auto * model_tensor = llama_model_get_tensor(model, name.c_str()); | ||
if (!model_tensor) { | ||
throw std::runtime_error("LoRA tensor '" + name + "' does not exist in base model"); | ||
} | ||
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struct ggml_context * dev_ctx = ctx_for_buft(ggml_backend_buffer_get_type(model_tensor->buffer)); | ||
// validate tensor shape | ||
if (model_tensor->ne[0] != w.a->ne[0] || model_tensor->ne[1] != w.b->ne[1]) { | ||
throw std::runtime_error("tensor '" + name + "' has incorrect shape"); | ||
} | ||
if (w.a->ne[1] != w.b->ne[0]) { | ||
throw std::runtime_error("lora_a tensor is not transposed (hint: adapter from \"finetune\" example is no longer supported)"); | ||
} | ||
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// save tensor to adapter | ||
struct ggml_tensor * tensor_a = ggml_dup_tensor(dev_ctx, w.a); | ||
struct ggml_tensor * tensor_b = ggml_dup_tensor(dev_ctx, w.b); | ||
ggml_set_name(tensor_a, w.a->name); | ||
ggml_set_name(tensor_b, w.b->name); | ||
adapter.ab_map[name] = llama_lora_weight(tensor_a, tensor_b); | ||
} | ||
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// allocate tensors / buffers and zero | ||
{ | ||
adapter.ctxs.reserve(ctx_map.size()); | ||
adapter.bufs.reserve(ctx_map.size()); | ||
for (auto & it : ctx_map) { | ||
ggml_backend_buffer_type_t buft = it.first; | ||
ggml_context * ctx_dev = it.second; | ||
ggml_backend_buffer_ptr buf { ggml_backend_alloc_ctx_tensors_from_buft(ctx_dev, buft) }; | ||
if (!buf) { | ||
throw std::runtime_error("failed to allocate buffer for lora adapter\n"); | ||
} | ||
LLAMA_LOG_INFO("%s: %10s LoRA buffer size = %8.2f MiB\n", __func__, ggml_backend_buffer_name(buf.get()), ggml_backend_buffer_get_size(buf.get())/1024.0/1024.0); | ||
adapter.bufs.emplace_back(std::move(buf)); | ||
} | ||
} | ||
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// set tensor data | ||
{ | ||
llama_file gguf_file(path_lora, "rb"); | ||
std::vector<uint8_t> read_buf; | ||
auto set_tensor = [&](struct ggml_tensor * orig, struct ggml_tensor * dev) { | ||
size_t offs = gguf_get_data_offset(ctx_gguf.get()) + gguf_get_tensor_offset(ctx_gguf.get(), gguf_find_tensor(ctx_gguf.get(), orig->name)); | ||
size_t size = ggml_nbytes(orig); | ||
read_buf.resize(size); | ||
gguf_file.seek(offs, SEEK_SET); | ||
gguf_file.read_raw(read_buf.data(), size); | ||
ggml_backend_tensor_set(dev, read_buf.data(), 0, size); | ||
}; | ||
for (auto & it : adapter.ab_map) { | ||
auto orig = ab_map[it.first]; | ||
auto dev = it.second; | ||
set_tensor(orig.a, dev.a); | ||
set_tensor(orig.b, dev.b); | ||
} | ||
} | ||
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LLAMA_LOG_INFO("%s: loaded %zu tensors from lora file\n", __func__, adapter.ab_map.size()*2); | ||
} |
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