mirror of
https://github.com/fish-shell/fish-shell
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27dd37ebb4
This makes two changes to parse trees: 1. Unmaterialized nodes no longer have an invalid source location For example, with the code `while false;end` there are no tokens associated with the while loop's job_list, and therefore it is unmaterialized. Previously it would have had a SOURCE_OFFSET_INVALID. But now it has a zero source length, but an offset equal to the end of the while loop (i.e. the semicolon), and a zero length. Correspondingly, the has_source function now checks the length instead of the offset. 2. Special (comment and error) nodes have always been "disconnected," meaning they are not the child of any other node. However, they now have their parent offsets set to whatever the top of the node stack was when the node was encountered. This gives us a sense of which node the comment is "in", e.g. if we are constructing a job list then the comment's parent will be the job list. This lets us determine the comment's indent.
270 lines
11 KiB
C++
270 lines
11 KiB
C++
/**\file parse_tree.h
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Programmatic representation of fish code.
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*/
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#ifndef FISH_PARSE_PRODUCTIONS_H
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#define FISH_PARSE_PRODUCTIONS_H
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#include <wchar.h>
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#include "config.h"
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#include "util.h"
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#include "common.h"
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#include "tokenizer.h"
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#include "parse_constants.h"
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#include <vector>
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#include <inttypes.h>
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class parse_node_t;
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class parse_node_tree_t;
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typedef uint32_t node_offset_t;
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#define NODE_OFFSET_INVALID (static_cast<node_offset_t>(-1))
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typedef uint32_t source_offset_t;
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#define SOURCE_OFFSET_INVALID (static_cast<source_offset_t>(-1))
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/* Returns a description of a list of parse errors */
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wcstring parse_errors_description(const parse_error_list_t &errors, const wcstring &src, const wchar_t *prefix = NULL);
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/** A struct representing the token type that we use internally */
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struct parse_token_t
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{
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enum parse_token_type_t type; // The type of the token as represented by the parser
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enum parse_keyword_t keyword; // Any keyword represented by this token
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bool has_dash_prefix; // Hackish: whether the source contains a dash prefix
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bool is_help_argument; // Hackish: whether the source looks like '-h' or '--help'
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source_offset_t source_start;
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source_offset_t source_length;
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wcstring describe() const;
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wcstring user_presentable_description() const;
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};
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enum
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{
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parse_flag_none = 0,
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/* Attempt to build a "parse tree" no matter what. This may result in a 'forest' of disconnected trees. This is intended to be used by syntax highlighting. */
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parse_flag_continue_after_error = 1 << 0,
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/* Include comment tokens */
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parse_flag_include_comments = 1 << 1,
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/* Indicate that the tokenizer should accept incomplete tokens */
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parse_flag_accept_incomplete_tokens = 1 << 2,
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/* Indicate that the parser should not generate the terminate token, allowing an 'unfinished' tree where some nodes may have no productions. */
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parse_flag_leave_unterminated = 1 << 3
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};
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typedef unsigned int parse_tree_flags_t;
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wcstring parse_dump_tree(const parse_node_tree_t &tree, const wcstring &src);
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wcstring token_type_description(parse_token_type_t type);
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wcstring keyword_description(parse_keyword_t type);
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/** Class for nodes of a parse tree. Since there's a lot of these, the size and order of the fields is important. */
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class parse_node_t
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{
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public:
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/* Start in the source code */
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source_offset_t source_start;
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/* Length of our range in the source code */
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source_offset_t source_length;
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/* Parent */
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node_offset_t parent;
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/* Children */
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node_offset_t child_start;
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/* Number of children */
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uint8_t child_count;
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/* Which production was used */
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uint8_t production_idx;
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/* Type of the node */
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enum parse_token_type_t type;
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/* Description */
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wcstring describe(void) const;
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/* Constructor */
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explicit parse_node_t(parse_token_type_t ty) : source_start(SOURCE_OFFSET_INVALID), source_length(0), parent(NODE_OFFSET_INVALID), child_start(0), child_count(0), production_idx(-1), type(ty)
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{
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}
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node_offset_t child_offset(node_offset_t which) const
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{
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PARSE_ASSERT(which < child_count);
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return child_start + which;
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}
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/* Indicate if this node has a range of source code associated with it */
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bool has_source() const
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{
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/* Should never have a nonempty range with an invalid offset */
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assert(this->source_start != SOURCE_OFFSET_INVALID || this->source_length == 0);
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return this->source_length > 0;
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}
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/* Gets source for the node, or the empty string if it has no source */
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wcstring get_source(const wcstring &str) const
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{
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if (! has_source())
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return wcstring();
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else
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return wcstring(str, this->source_start, this->source_length);
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}
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/* Returns whether the given location is within the source range or at its end */
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bool location_in_or_at_end_of_source_range(size_t loc) const
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{
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return has_source() && source_start <= loc && loc - source_start <= source_length;
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}
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};
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/* The parse tree itself */
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class parse_node_tree_t : public std::vector<parse_node_t>
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{
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public:
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/* Get the node corresponding to a child of the given node, or NULL if there is no such child. If expected_type is provided, assert that the node has that type.
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*/
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const parse_node_t *get_child(const parse_node_t &parent, node_offset_t which, parse_token_type_t expected_type = token_type_invalid) const;
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/* Find the first direct child of the given node of the given type. asserts on failure
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*/
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const parse_node_t &find_child(const parse_node_t &parent, parse_token_type_t type) const;
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/* Get the node corresponding to the parent of the given node, or NULL if there is no such child. If expected_type is provided, only returns the parent if it is of that type. Note the asymmetry: get_child asserts since the children are known, but get_parent does not, since the parent may not be known. */
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const parse_node_t *get_parent(const parse_node_t &node, parse_token_type_t expected_type = token_type_invalid) const;
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/* Returns the first ancestor of the given type, or NULL. */
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const parse_node_t *get_first_ancestor_of_type(const parse_node_t &node, parse_token_type_t desired_type) const;
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/* Find all the nodes of a given type underneath a given node, up to max_count of them */
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typedef std::vector<const parse_node_t *> parse_node_list_t;
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parse_node_list_t find_nodes(const parse_node_t &parent, parse_token_type_t type, size_t max_count = (size_t)(-1)) const;
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/* Finds the last node of a given type underneath a given node, or NULL if it could not be found. If parent is NULL, this finds the last node in the tree of that type. */
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const parse_node_t *find_last_node_of_type(parse_token_type_t type, const parse_node_t *parent = NULL) const;
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/* Finds a node containing the given source location. If 'parent' is not NULL, it must be an ancestor. */
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const parse_node_t *find_node_matching_source_location(parse_token_type_t type, size_t source_loc, const parse_node_t *parent) const;
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/* Indicate if the given argument_list or arguments_or_redirections_list is a root list, or has a parent */
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bool argument_list_is_root(const parse_node_t &node) const;
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/* Utilities */
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/* Given a plain statement, get the decoration (from the parent node), or none if there is no decoration */
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enum parse_statement_decoration_t decoration_for_plain_statement(const parse_node_t &node) const;
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/* Given a plain statement, get the command by reference (from the child node). Returns true if successful. Clears the command on failure. */
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bool command_for_plain_statement(const parse_node_t &node, const wcstring &src, wcstring *out_cmd) const;
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/* Given a plain statement, return true if the statement is part of a pipeline. If include_first is set, the first command in a pipeline is considered part of it; otherwise only the second or additional commands are */
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bool statement_is_in_pipeline(const parse_node_t &node, bool include_first) const;
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/* Given a redirection, get the redirection type (or TOK_NONE) and target (file path, or fd) */
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enum token_type type_for_redirection(const parse_node_t &node, const wcstring &src, int *out_fd, wcstring *out_target) const;
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/* If the given node is a block statement, returns the header node (for_header, while_header, begin_header, or function_header). Otherwise returns NULL */
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const parse_node_t *header_node_for_block_statement(const parse_node_t &node) const;
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/* Given a node list (e.g. of type symbol_job_list) and a node type (e.g. symbol_job), return the next element of the given type in that list, and the tail (by reference). Returns NULL if we've exhausted the list. */
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const parse_node_t *next_node_in_node_list(const parse_node_t &node_list, parse_token_type_t item_type, const parse_node_t **list_tail) const;
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/* Given a job, return all of its statements. These are 'specific statements' (e.g. symbol_decorated_statement, not symbol_statement) */
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parse_node_list_t specific_statements_for_job(const parse_node_t &job) const;
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/* Given a job, return whether it should be backgrounded, because it has a & specifier */
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bool job_should_be_backgrounded(const parse_node_t &job) const;
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};
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/* The big entry point. Parse a string, attempting to produce a tree for the given goal type */
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bool parse_tree_from_string(const wcstring &str, parse_tree_flags_t flags, parse_node_tree_t *output, parse_error_list_t *errors, parse_token_type_t goal = symbol_job_list);
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/* Fish grammar:
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# A job_list is a list of jobs, separated by semicolons or newlines
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job_list = <empty> |
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job job_list
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<TOK_END> job_list
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# A job is a non-empty list of statements, separated by pipes. (Non-empty is useful for cases like if statements, where we require a command). To represent "non-empty", we require a statement, followed by a possibly empty job_continuation, and then optionally a background specifier '&'
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job = statement job_continuation optional_background
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job_continuation = <empty> |
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<TOK_PIPE> statement job_continuation
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# A statement is a normal command, or an if / while / and etc
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statement = boolean_statement | block_statement | if_statement | switch_statement | decorated_statement
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# A block is a conditional, loop, or begin/end
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if_statement = if_clause else_clause end_command arguments_or_redirections_list
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if_clause = <IF> job <TOK_END> job_list
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else_clause = <empty> |
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<ELSE> else_continuation
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else_continuation = if_clause else_clause |
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<TOK_END> job_list
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switch_statement = SWITCH argument <TOK_END> case_item_list end_command arguments_or_redirections_list
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case_item_list = <empty> |
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case_item case_item_list |
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<TOK_END> case_item_list
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case_item = CASE argument_list <TOK_END> job_list
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block_statement = block_header <TOK_END> job_list end_command arguments_or_redirections_list
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block_header = for_header | while_header | function_header | begin_header
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for_header = FOR var_name IN argument_list
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while_header = WHILE job
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begin_header = BEGIN
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# Functions take arguments, and require at least one (the name). No redirections allowed.
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function_header = FUNCTION argument argument_list
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# A boolean statement is AND or OR or NOT
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boolean_statement = AND statement | OR statement | NOT statement
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# A decorated_statement is a command with a list of arguments_or_redirections, possibly with "builtin" or "command" or "exec"
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decorated_statement = plain_statement | COMMAND plain_statement | BUILTIN plain_statement | EXEC plain_statement
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plain_statement = <TOK_STRING> arguments_or_redirections_list
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argument_list = <empty> | argument argument_list
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arguments_or_redirections_list = <empty> |
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argument_or_redirection arguments_or_redirections_list
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argument_or_redirection = argument | redirection
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argument = <TOK_STRING>
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redirection = <TOK_REDIRECTION> <TOK_STRING>
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optional_background = <empty> | <TOK_BACKGROUND>
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end_command = END
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# A freestanding_argument_list is equivalent to a normal argument list, except it may contain TOK_END (newlines, and even semicolons, for historical reasons
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freestanding_argument_list = <empty> |
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argument freestanding_argument_list |
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<TOK_END> freestanding_argument_list
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*/
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#endif
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