ast-inspect.c - pub/scm/devel/sparse/sparse - Git at Google


 #include "token.h"
 #include "parse.h"
 #include "symbol.h"
 #include "ast-inspect.h"
 #include "expression.h"

 static inline void inspect_ptr_list(AstNode *node, const char *name, void (*inspect)(AstNode *))
 {
 	struct ptr_list *ptrlist = node->ptr;
 	void *ptr;
 	int i = 0;

 	node->text = g_strdup_printf("%s %s:", node->text, name);
 	FOR_EACH_PTR(ptrlist, ptr) {
 		char *index = g_strdup_printf("%d: ", i++);
 		ast_append_child(node, index, ptr, inspect);
 	} END_FOR_EACH_PTR(ptr);
 }


 static const char *statement_type_name(enum statement_type type)
 {
 	static const char *statement_type_name[] = {
 		[STMT_NONE] = "STMT_NONE",
 		[STMT_DECLARATION] = "STMT_DECLARATION",
 		[STMT_EXPRESSION] = "STMT_EXPRESSION",
 		[STMT_COMPOUND] = "STMT_COMPOUND",
 		[STMT_IF] = "STMT_IF",
 		[STMT_RETURN] = "STMT_RETURN",
 		[STMT_CASE] = "STMT_CASE",
 		[STMT_SWITCH] = "STMT_SWITCH",
 		[STMT_ITERATOR] = "STMT_ITERATOR",
 		[STMT_LABEL] = "STMT_LABEL",
 		[STMT_GOTO] = "STMT_GOTO",
 		[STMT_ASM] = "STMT_ASM",
 		[STMT_CONTEXT] = "STMT_CONTEXT",
 		[STMT_RANGE] = "STMT_RANGE",
 	};
 	return statement_type_name[type] ?: "UNKNOWN_STATEMENT_TYPE";
 }

 void inspect_statement(AstNode *node)
 {
 	struct statement *stmt = node->ptr;
 	node->text = g_strdup_printf("%s %s:", node->text, statement_type_name(stmt->type));
 	switch (stmt->type) {
 		case STMT_COMPOUND:
 			ast_append_child(node, "stmts:", stmt->stmts, inspect_statement_list);
 			break;
 		case STMT_EXPRESSION:
 			ast_append_child(node, "expression:", stmt->expression, inspect_expression);
 			break;
 		case STMT_IF:
 			ast_append_child(node, "conditional:", stmt->if_conditional, inspect_expression);
 			ast_append_child(node, "if_true:", stmt->if_true, inspect_statement);
 			ast_append_child(node, "if_false:", stmt->if_false, inspect_statement);
 			break;
 		case STMT_ITERATOR:
 			ast_append_child(node, "break:", stmt->iterator_break, inspect_symbol);
 			ast_append_child(node, "continue:", stmt->iterator_continue, inspect_symbol);
 			ast_append_child(node, "pre_statement:", stmt->iterator_pre_statement,
 					 inspect_statement);
 			ast_append_child(node, "statement:", stmt->iterator_statement,
 					 inspect_statement);
 			ast_append_child(node, "post_statement:", stmt->iterator_post_statement,
 					 inspect_statement);
 			break;

 		case STMT_SWITCH:
 			ast_append_child(node, "switch_expression:", stmt->switch_expression, inspect_expression);
 			ast_append_child(node, "switch_statement:", stmt->switch_statement, inspect_statement);
 			ast_append_child(node, "switch_break:", stmt->switch_break, inspect_symbol);
 			ast_append_child(node, "switch_case:", stmt->switch_case, inspect_symbol);
 			break;
 		case STMT_CASE:
 			ast_append_child(node, "case_expression:", stmt->case_expression, inspect_expression);
 			ast_append_child(node, "case_to:", stmt->case_to, inspect_expression);
 			ast_append_child(node, "case_statement:", stmt->case_statement, inspect_statement);
 			ast_append_child(node, "case_label:", stmt->case_label, inspect_symbol);
 			break;
 		case STMT_RETURN:
 			ast_append_child(node, "ret_value:", stmt->ret_value, inspect_expression);
 			ast_append_child(node, "ret_target:", stmt->ret_target, inspect_symbol);
 			break;

 		default:
 			break;
 	}
 }


 void inspect_statement_list(AstNode *node)
 {
 	inspect_ptr_list(node, "statement_list", inspect_statement);
 }


 static const char *symbol_type_name(enum type type)
 {
 	static const char *type_name[] = {
 		[SYM_UNINITIALIZED] = "SYM_UNINITIALIZED",
 		[SYM_PREPROCESSOR] = "SYM_PREPROCESSOR",
 		[SYM_BASETYPE] = "SYM_BASETYPE",
 		[SYM_NODE] = "SYM_NODE",
 		[SYM_PTR] = "SYM_PTR",
 		[SYM_FN] = "SYM_FN",
 		[SYM_ARRAY] = "SYM_ARRAY",
 		[SYM_STRUCT] = "SYM_STRUCT",
 		[SYM_UNION] = "SYM_UNION",
 		[SYM_ENUM] = "SYM_ENUM",
 		[SYM_TYPEDEF] = "SYM_TYPEDEF",
 		[SYM_TYPEOF] = "SYM_TYPEOF",
 		[SYM_MEMBER] = "SYM_MEMBER",
 		[SYM_BITFIELD] = "SYM_BITFIELD",
 		[SYM_LABEL] = "SYM_LABEL",
 		[SYM_RESTRICT] = "SYM_RESTRICT",
 		[SYM_FOULED] = "SYM_FOULED",
 		[SYM_KEYWORD] = "SYM_KEYWORD",
 		[SYM_BAD] = "SYM_BAD",
 	};
 	return type_name[type] ?: "UNKNOWN_TYPE";
 }


 void inspect_symbol(AstNode *node)
 {
 	struct symbol *sym = node->ptr;
 	node->text = g_strdup_printf("%s %s: %s", node->text, symbol_type_name(sym->type),
 				      builtin_typename(sym) ?: show_ident(sym->ident));
 	ast_append_child(node, "ctype.base_type:", sym->ctype.base_type,inspect_symbol);

 	switch (sym->namespace) {
 		case NS_PREPROCESSOR:
 			break;
 		default:
 			ast_append_child(node, "arguments:", sym->arguments, inspect_symbol_list);
 			ast_append_child(node, "symbol_list:", sym->symbol_list, inspect_symbol_list);
 			ast_append_child(node, "stmt:", sym->stmt, inspect_statement);
 			break;
 	}
 }


 void inspect_symbol_list(AstNode *node)
 {
 	inspect_ptr_list(node, "symbol_list", inspect_symbol);
 }


 static const char *expression_type_name(enum expression_type type)
 {
 	static const char *expression_type_name[] = {
 		[EXPR_VALUE] = "EXPR_VALUE",
 		[EXPR_STRING] = "EXPR_STRING",
 		[EXPR_SYMBOL] = "EXPR_SYMBOL",
 		[EXPR_TYPE] = "EXPR_TYPE",
 		[EXPR_BINOP] = "EXPR_BINOP",
 		[EXPR_ASSIGNMENT] = "EXPR_ASSIGNMENT",
 		[EXPR_LOGICAL] = "EXPR_LOGICAL",
 		[EXPR_DEREF] = "EXPR_DEREF",
 		[EXPR_PREOP] = "EXPR_PREOP",
 		[EXPR_POSTOP] = "EXPR_POSTOP",
 		[EXPR_CAST] = "EXPR_CAST",
 		[EXPR_FORCE_CAST] = "EXPR_FORCE_CAST",
 		[EXPR_IMPLIED_CAST] = "EXPR_IMPLIED_CAST",
 		[EXPR_SIZEOF] = "EXPR_SIZEOF",
 		[EXPR_ALIGNOF] = "EXPR_ALIGNOF",
 		[EXPR_PTRSIZEOF] = "EXPR_PTRSIZEOF",
 		[EXPR_CONDITIONAL] = "EXPR_CONDITIONAL",
 		[EXPR_SELECT] = "EXPR_SELECT",
 		[EXPR_STATEMENT] = "EXPR_STATEMENT",
 		[EXPR_CALL] = "EXPR_CALL",
 		[EXPR_COMMA] = "EXPR_COMMA",
 		[EXPR_COMPARE] = "EXPR_COMPARE",
 		[EXPR_LABEL] = "EXPR_LABEL",
 		[EXPR_INITIALIZER] = "EXPR_INITIALIZER",
 		[EXPR_IDENTIFIER] = "EXPR_IDENTIFIER",
 		[EXPR_INDEX] = "EXPR_INDEX",
 		[EXPR_POS] = "EXPR_POS",
 		[EXPR_FVALUE] = "EXPR_FVALUE",
 		[EXPR_SLICE] = "EXPR_SLICE",
 		[EXPR_OFFSETOF] = "EXPR_OFFSETOF",
 	};
 	return expression_type_name[type] ?: "UNKNOWN_EXPRESSION_TYPE";
 }

 void inspect_expression(AstNode *node)
 {
 	struct expression *expr = node->ptr;
 	node->text = g_strdup_printf("%s %s", node->text, expression_type_name(expr->type));
 	switch (expr->type) {
 		case EXPR_STATEMENT:
 			ast_append_child(node, "statement:", expr->statement, inspect_statement);
 			break;
 		case EXPR_BINOP:
 		case EXPR_COMMA:
 		case EXPR_COMPARE:
 		case EXPR_LOGICAL:
 		case EXPR_ASSIGNMENT:
 			ast_append_child(node, "left:", expr->left, inspect_expression);
 			ast_append_child(node, "right:", expr->right, inspect_expression);
 			break;

 		case EXPR_CAST:
 		case EXPR_FORCE_CAST:
 		case EXPR_IMPLIED_CAST:
 			ast_append_child(node, "cast_type:", expr->cast_type, inspect_symbol);
 			ast_append_child(node, "cast_expression:", expr->cast_expression, inspect_expression);
 			break;

 		case EXPR_PREOP:
 			ast_append_child(node, "unop:", expr->unop, inspect_expression);
 			break;

 		default:
 			break;
 	}
 }

	#include "token.h"
	#include "parse.h"
	#include "symbol.h"
	#include "ast-inspect.h"
	#include "expression.h"

	static inline void inspect_ptr_list(AstNode node, const char name, void (inspect)(AstNode ))
	{
	struct ptr_list *ptrlist = node->ptr;
	void *ptr;
	int i = 0;

	node->text = g_strdup_printf("%s %s:", node->text, name);
	FOR_EACH_PTR(ptrlist, ptr) {
	char *index = g_strdup_printf("%d: ", i++);
	ast_append_child(node, index, ptr, inspect);
	} END_FOR_EACH_PTR(ptr);
	}


	static const char *statement_type_name(enum statement_type type)
	{
	static const char *statement_type_name[] = {
	[STMT_NONE] = "STMT_NONE",
	[STMT_DECLARATION] = "STMT_DECLARATION",
	[STMT_EXPRESSION] = "STMT_EXPRESSION",
	[STMT_COMPOUND] = "STMT_COMPOUND",
	[STMT_IF] = "STMT_IF",
	[STMT_RETURN] = "STMT_RETURN",
	[STMT_CASE] = "STMT_CASE",
	[STMT_SWITCH] = "STMT_SWITCH",
	[STMT_ITERATOR] = "STMT_ITERATOR",
	[STMT_LABEL] = "STMT_LABEL",
	[STMT_GOTO] = "STMT_GOTO",
	[STMT_ASM] = "STMT_ASM",
	[STMT_CONTEXT] = "STMT_CONTEXT",
	[STMT_RANGE] = "STMT_RANGE",
	};
	return statement_type_name[type] ?: "UNKNOWN_STATEMENT_TYPE";
	}

	void inspect_statement(AstNode *node)
	{
	struct statement *stmt = node->ptr;
	node->text = g_strdup_printf("%s %s:", node->text, statement_type_name(stmt->type));
	switch (stmt->type) {
	case STMT_COMPOUND:
	ast_append_child(node, "stmts:", stmt->stmts, inspect_statement_list);
	break;
	case STMT_EXPRESSION:
	ast_append_child(node, "expression:", stmt->expression, inspect_expression);
	break;
	case STMT_IF:
	ast_append_child(node, "conditional:", stmt->if_conditional, inspect_expression);
	ast_append_child(node, "if_true:", stmt->if_true, inspect_statement);
	ast_append_child(node, "if_false:", stmt->if_false, inspect_statement);
	break;
	case STMT_ITERATOR:
	ast_append_child(node, "break:", stmt->iterator_break, inspect_symbol);
	ast_append_child(node, "continue:", stmt->iterator_continue, inspect_symbol);
	ast_append_child(node, "pre_statement:", stmt->iterator_pre_statement,
	inspect_statement);
	ast_append_child(node, "statement:", stmt->iterator_statement,
	inspect_statement);
	ast_append_child(node, "post_statement:", stmt->iterator_post_statement,
	inspect_statement);
	break;

	case STMT_SWITCH:
	ast_append_child(node, "switch_expression:", stmt->switch_expression, inspect_expression);
	ast_append_child(node, "switch_statement:", stmt->switch_statement, inspect_statement);
	ast_append_child(node, "switch_break:", stmt->switch_break, inspect_symbol);
	ast_append_child(node, "switch_case:", stmt->switch_case, inspect_symbol);
	break;
	case STMT_CASE:
	ast_append_child(node, "case_expression:", stmt->case_expression, inspect_expression);
	ast_append_child(node, "case_to:", stmt->case_to, inspect_expression);
	ast_append_child(node, "case_statement:", stmt->case_statement, inspect_statement);
	ast_append_child(node, "case_label:", stmt->case_label, inspect_symbol);
	break;
	case STMT_RETURN:
	ast_append_child(node, "ret_value:", stmt->ret_value, inspect_expression);
	ast_append_child(node, "ret_target:", stmt->ret_target, inspect_symbol);
	break;

	default:
	break;
	}
	}


	void inspect_statement_list(AstNode *node)
	{
	inspect_ptr_list(node, "statement_list", inspect_statement);
	}


	static const char *symbol_type_name(enum type type)
	{
	static const char *type_name[] = {
	[SYM_UNINITIALIZED] = "SYM_UNINITIALIZED",
	[SYM_PREPROCESSOR] = "SYM_PREPROCESSOR",
	[SYM_BASETYPE] = "SYM_BASETYPE",
	[SYM_NODE] = "SYM_NODE",
	[SYM_PTR] = "SYM_PTR",
	[SYM_FN] = "SYM_FN",
	[SYM_ARRAY] = "SYM_ARRAY",
	[SYM_STRUCT] = "SYM_STRUCT",
	[SYM_UNION] = "SYM_UNION",
	[SYM_ENUM] = "SYM_ENUM",
	[SYM_TYPEDEF] = "SYM_TYPEDEF",
	[SYM_TYPEOF] = "SYM_TYPEOF",
	[SYM_MEMBER] = "SYM_MEMBER",
	[SYM_BITFIELD] = "SYM_BITFIELD",
	[SYM_LABEL] = "SYM_LABEL",
	[SYM_RESTRICT] = "SYM_RESTRICT",
	[SYM_FOULED] = "SYM_FOULED",
	[SYM_KEYWORD] = "SYM_KEYWORD",
	[SYM_BAD] = "SYM_BAD",
	};
	return type_name[type] ?: "UNKNOWN_TYPE";
	}


	void inspect_symbol(AstNode *node)
	{
	struct symbol *sym = node->ptr;
	node->text = g_strdup_printf("%s %s: %s", node->text, symbol_type_name(sym->type),
	builtin_typename(sym) ?: show_ident(sym->ident));
	ast_append_child(node, "ctype.base_type:", sym->ctype.base_type,inspect_symbol);

	switch (sym->namespace) {
	case NS_PREPROCESSOR:
	break;
	default:
	ast_append_child(node, "arguments:", sym->arguments, inspect_symbol_list);
	ast_append_child(node, "symbol_list:", sym->symbol_list, inspect_symbol_list);
	ast_append_child(node, "stmt:", sym->stmt, inspect_statement);
	break;
	}
	}


	void inspect_symbol_list(AstNode *node)
	{
	inspect_ptr_list(node, "symbol_list", inspect_symbol);
	}


	static const char *expression_type_name(enum expression_type type)
	{
	static const char *expression_type_name[] = {
	[EXPR_VALUE] = "EXPR_VALUE",
	[EXPR_STRING] = "EXPR_STRING",
	[EXPR_SYMBOL] = "EXPR_SYMBOL",
	[EXPR_TYPE] = "EXPR_TYPE",
	[EXPR_BINOP] = "EXPR_BINOP",
	[EXPR_ASSIGNMENT] = "EXPR_ASSIGNMENT",
	[EXPR_LOGICAL] = "EXPR_LOGICAL",
	[EXPR_DEREF] = "EXPR_DEREF",
	[EXPR_PREOP] = "EXPR_PREOP",
	[EXPR_POSTOP] = "EXPR_POSTOP",
	[EXPR_CAST] = "EXPR_CAST",
	[EXPR_FORCE_CAST] = "EXPR_FORCE_CAST",
	[EXPR_IMPLIED_CAST] = "EXPR_IMPLIED_CAST",
	[EXPR_SIZEOF] = "EXPR_SIZEOF",
	[EXPR_ALIGNOF] = "EXPR_ALIGNOF",
	[EXPR_PTRSIZEOF] = "EXPR_PTRSIZEOF",
	[EXPR_CONDITIONAL] = "EXPR_CONDITIONAL",
	[EXPR_SELECT] = "EXPR_SELECT",
	[EXPR_STATEMENT] = "EXPR_STATEMENT",
	[EXPR_CALL] = "EXPR_CALL",
	[EXPR_COMMA] = "EXPR_COMMA",
	[EXPR_COMPARE] = "EXPR_COMPARE",
	[EXPR_LABEL] = "EXPR_LABEL",
	[EXPR_INITIALIZER] = "EXPR_INITIALIZER",
	[EXPR_IDENTIFIER] = "EXPR_IDENTIFIER",
	[EXPR_INDEX] = "EXPR_INDEX",
	[EXPR_POS] = "EXPR_POS",
	[EXPR_FVALUE] = "EXPR_FVALUE",
	[EXPR_SLICE] = "EXPR_SLICE",
	[EXPR_OFFSETOF] = "EXPR_OFFSETOF",
	};
	return expression_type_name[type] ?: "UNKNOWN_EXPRESSION_TYPE";
	}

	void inspect_expression(AstNode *node)
	{
	struct expression *expr = node->ptr;
	node->text = g_strdup_printf("%s %s", node->text, expression_type_name(expr->type));
	switch (expr->type) {
	case EXPR_STATEMENT:
	ast_append_child(node, "statement:", expr->statement, inspect_statement);
	break;
	case EXPR_BINOP:
	case EXPR_COMMA:
	case EXPR_COMPARE:
	case EXPR_LOGICAL:
	case EXPR_ASSIGNMENT:
	ast_append_child(node, "left:", expr->left, inspect_expression);
	ast_append_child(node, "right:", expr->right, inspect_expression);
	break;

	case EXPR_CAST:
	case EXPR_FORCE_CAST:
	case EXPR_IMPLIED_CAST:
	ast_append_child(node, "cast_type:", expr->cast_type, inspect_symbol);
	ast_append_child(node, "cast_expression:", expr->cast_expression, inspect_expression);
	break;

	case EXPR_PREOP:
	ast_append_child(node, "unop:", expr->unop, inspect_expression);
	break;

	default:
	break;
	}
	}