#include "pgf/pgf.h" #include "pgf/data.h" #include "pgf/evaluator.h" #include #define PGF_ARGS_DELTA 5 PgfClosure* pgf_evaluate_expr_thunk(PgfEvalState* state, PgfExprThunk* thunk) { PgfEnv* env = thunk->env; PgfExpr expr = thunk->expr; size_t n_args = 0; PgfClosure** args = NULL; PgfClosure* res = NULL; repeat:; GuVariantInfo ei = gu_variant_open(expr); switch (ei.tag) { case PGF_EXPR_ABS: { PgfExprAbs* eabs = ei.data; if (n_args > 0) { PgfEnv* new_env = gu_new(PgfEnv, state->pool); new_env->next = env; new_env->closure = args[--n_args]; env = new_env; expr = eabs->body; goto repeat; } else { thunk->header.code = state->eval_gates->evaluate_value_lambda; thunk->expr = expr; res = &thunk->header; } break; } case PGF_EXPR_APP: { PgfExprApp* eapp = ei.data; PgfExprThunk* thunk = gu_new(PgfExprThunk, state->pool); thunk->header.code = state->eval_gates->evaluate_expr_thunk; thunk->env = env; thunk->expr = eapp->arg; if (n_args % PGF_ARGS_DELTA == 0) { args = realloc(args, n_args + PGF_ARGS_DELTA); } args[n_args++] = &thunk->header; expr = eapp->fun; goto repeat; } case PGF_EXPR_LIT: { PgfExprLit* elit = ei.data; PgfValueLit* val = (PgfValueLit*) thunk; val->header.code = state->eval_gates->evaluate_value_lit; val->lit = elit->lit; res = &val->header; break; } case PGF_EXPR_META: { PgfExprMeta* emeta = ei.data; PgfValueMeta* val = gu_new_flex(state->pool, PgfValueMeta, args, n_args); val->header.code = state->eval_gates->evaluate_value_meta; val->id = emeta->id; val->n_args = n_args*sizeof(PgfClosure*); for (size_t i = 0; i < n_args; i++) { val->args[i] = args[n_args-i-1]; } PgfIndirection* indir = (PgfIndirection*) thunk; indir->header.code = state->eval_gates->evaluate_indirection; indir->val = &val->header; res = &val->header; break; } case PGF_EXPR_FUN: { PgfExprFun* efun = ei.data; PgfAbsFun* absfun = gu_map_get(state->pgf->abstract.funs, efun->fun, PgfAbsFun*); if (absfun == NULL) { GuExnData* err_data = gu_raise(state->err, PgfExn); if (err_data) { err_data->data = (char* const) gu_format_string(err_data->pool, "Unknown function: %s", efun->fun); } } else { if (absfun->closure_id > 0) { res = &state->globals[absfun->closure_id-1].header; if (n_args > 0) { PgfValuePAP* val = gu_new_flex(state->pool, PgfValuePAP, args, n_args); val->header.code = state->eval_gates->evaluate_value_pap; val->fun = res; val->n_args = n_args*sizeof(PgfClosure*); for (size_t i = 0; i < n_args; i++) { val->args[i] = args[i]; } res = &val->header; } } else { size_t arity = absfun->arity; PgfValue* val = gu_new_flex(state->pool, PgfValue, args, arity); val->header.code = state->eval_gates->evaluate_value; val->absfun = absfun; for (size_t i = 0; i < arity; i++) { val->args[i] = args[--n_args]; } res = &val->header; } PgfIndirection* indir = (PgfIndirection*) thunk; indir->header.code = state->eval_gates->evaluate_indirection; indir->val = res; } break; } case PGF_EXPR_VAR: { PgfExprVar* evar = ei.data; PgfEnv* tmp_env = env; size_t i = evar->var; while (i > 0) { tmp_env = tmp_env->next; if (tmp_env == NULL) { GuExnData* err_data = gu_raise(state->err, PgfExn); if (err_data) { err_data->data = "invalid de Bruijn index"; } return NULL; } i--; } res = tmp_env->closure; PgfIndirection* indir = (PgfIndirection*) thunk; indir->header.code = state->eval_gates->evaluate_indirection; indir->val = res; if (n_args > 0) { PgfValuePAP* val = gu_new_flex(state->pool, PgfValuePAP, args, n_args); val->header.code = state->eval_gates->evaluate_value_pap; val->fun = res; val->n_args = n_args*sizeof(PgfClosure*); for (size_t i = 0; i < n_args; i++) { val->args[i] = args[i]; } res = &val->header; } break; } case PGF_EXPR_TYPED: { PgfExprTyped* etyped = ei.data; expr = etyped->expr; goto repeat; } case PGF_EXPR_IMPL_ARG: { PgfExprImplArg* eimpl = ei.data; expr = eimpl->expr; goto repeat; } default: gu_impossible(); } free(args); return res; } PgfClosure* pgf_evaluate_lambda_application(PgfEvalState* state, PgfExprThunk* lambda, PgfClosure* arg) { PgfEnv* new_env = gu_new(PgfEnv, state->pool); new_env->next = lambda->env; new_env->closure = arg; PgfExprThunk* thunk = gu_new(PgfExprThunk, state->pool); thunk->header.code = state->eval_gates->evaluate_expr_thunk; thunk->env = new_env; thunk->expr = ((PgfExprAbs*) gu_variant_data(lambda->expr))->body; return pgf_evaluate_expr_thunk(state, thunk); } static PgfExpr pgf_value2expr(PgfEvalState* state, int level, PgfClosure* clos, GuPool* pool) { clos = state->eval_gates->enter(state, clos); if (clos == NULL) return gu_null_variant; PgfExpr expr = gu_null_variant; size_t n_args = 0; PgfClosure** args; if (clos->code == state->eval_gates->evaluate_value) { PgfValue* val = (PgfValue*) clos; expr = val->absfun->ep.expr; n_args = gu_seq_length(val->absfun->type->hypos); args = val->args; } else if (clos->code == state->eval_gates->evaluate_value_gen) { PgfValueGen* val = (PgfValueGen*) clos; PgfExprVar *evar = gu_new_variant(PGF_EXPR_VAR, PgfExprVar, &expr, pool); evar->var = level - val->level - 1; n_args = val->n_args/sizeof(PgfClosure*); args = val->args; } else if (clos->code == state->eval_gates->evaluate_value_meta) { PgfValueMeta* val = (PgfValueMeta*) clos; PgfExprMeta *emeta = gu_new_variant(PGF_EXPR_META, PgfExprMeta, &expr, pool); emeta->id = val->id; n_args = val->n_args / sizeof(PgfClosure*); args = val->args; } else if (clos->code == state->eval_gates->evaluate_value_lit) { PgfValueLit* val = (PgfValueLit*) clos; PgfExprLit *elit = gu_new_variant(PGF_EXPR_LIT, PgfExprLit, &expr, pool); GuVariantInfo i = gu_variant_open(val->lit); switch (i.tag) { case PGF_LITERAL_STR: { PgfLiteralStr* lstr = i.data; PgfLiteralStr* new_lstr = gu_new_flex_variant(PGF_LITERAL_STR, PgfLiteralStr, val, strlen(lstr->val)+1, &elit->lit, pool); strcpy(new_lstr->val, lstr->val); break; } case PGF_LITERAL_INT: { PgfLiteralInt* lint = i.data; PgfLiteralInt* new_lint = gu_new_variant(PGF_LITERAL_INT, PgfLiteralInt, &elit->lit, pool); new_lint->val = lint->val; break; } case PGF_LITERAL_FLT: { PgfLiteralFlt* lflt = i.data; PgfLiteralFlt* new_lflt = gu_new_variant(PGF_LITERAL_FLT, PgfLiteralFlt, &elit->lit, pool); new_lflt->val = lflt->val; break; } default: gu_impossible(); } } else if (clos->code == state->eval_gates->evaluate_value_pap) { PgfValuePAP *pap = (PgfValuePAP*) clos; n_args = pap->n_args / sizeof(PgfClosure*); args = pap->args; } else if (clos->code == state->eval_gates->evaluate_value_lambda) { PgfExprThunk *old_thunk = (PgfExprThunk*) clos; PgfExprAbs *old_eabs = gu_variant_data(old_thunk->expr); PgfValueGen* gen = gu_new(PgfValueGen, state->pool); gen->header.code = state->eval_gates->evaluate_value_gen; gen->level = level; gen->n_args = 0; PgfEnv* new_env = gu_new(PgfEnv, state->pool); new_env->next = old_thunk->env; new_env->closure = &gen->header; PgfExprThunk* new_thunk = gu_new(PgfExprThunk, state->pool); new_thunk->header.code = state->eval_gates->evaluate_expr_thunk; new_thunk->env = new_env; new_thunk->expr = old_eabs->body; PgfExprAbs *eabs = gu_new_variant(PGF_EXPR_ABS, PgfExprAbs, &expr, pool); eabs->bind_type = old_eabs->bind_type; eabs->id = gu_format_string(pool, "v%d", level); eabs->body = pgf_value2expr(state, level+1, &new_thunk->header, pool); } else { gu_impossible(); } for (size_t i = 0; i < n_args; i++) { PgfExpr fun = expr; PgfExpr arg = pgf_value2expr(state, level, args[i], pool); if (gu_variant_is_null(arg)) return gu_null_variant; PgfExprApp* e = gu_new_variant(PGF_EXPR_APP, PgfExprApp, &expr, pool); e->fun = fun; e->arg = arg; } return expr; } PgfExpr pgf_compute(PgfPGF* pgf, PgfExpr expr, GuExn* err, GuPool* pool, GuPool* out_pool) { size_t n_closures = gu_seq_length(pgf->abstract.eval_gates->defrules); PgfEvalState* state = gu_new_flex(pool, PgfEvalState, globals, n_closures); state->pgf = pgf; state->eval_gates = pgf->abstract.eval_gates; state->pool = pool; state->err = err; PgfFunction* defrules = gu_seq_data(state->eval_gates->defrules); for (size_t i = 0; i < n_closures; i++) { state->globals[i].header.code = defrules[i]; state->globals[i].val = NULL; } PgfExprThunk* thunk = gu_new(PgfExprThunk, pool); thunk->header.code = state->eval_gates->evaluate_expr_thunk; thunk->env = NULL; thunk->expr = expr; return pgf_value2expr(state, 0, &thunk->header, out_pool); }