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stack.h
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stack.h
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#ifndef TREE_SITTER_PARSE_STACK_H_
#define TREE_SITTER_PARSE_STACK_H_
#ifdef __cplusplus
extern "C" {
#endif
#include "array.h" // modified by Poolside fork
#include "subtree.h" // modified by Poolside fork
#include "error_costs.h" // modified by Poolside fork
#include <stdio.h>
typedef struct Stack Stack;
typedef unsigned StackVersion;
#define STACK_VERSION_NONE ((StackVersion)-1)
typedef struct {
SubtreeArray subtrees;
StackVersion version;
} StackSlice;
typedef Array(StackSlice) StackSliceArray;
typedef struct {
Length position;
unsigned depth;
TSStateId state;
} StackSummaryEntry;
typedef Array(StackSummaryEntry) StackSummary;
// Create a stack.
Stack *ts_stack_new(SubtreePool *);
// Release the memory reserved for a given stack.
void ts_stack_delete(Stack *);
// Get the stack's current number of versions.
uint32_t ts_stack_version_count(const Stack *);
// Get the state at the top of the given version of the stack. If the stack is
// empty, this returns the initial state, 0.
TSStateId ts_stack_state(const Stack *, StackVersion);
// Get the last external token associated with a given version of the stack.
Subtree ts_stack_last_external_token(const Stack *, StackVersion);
// Set the last external token associated with a given version of the stack.
void ts_stack_set_last_external_token(Stack *, StackVersion, Subtree );
// Get the position of the given version of the stack within the document.
Length ts_stack_position(const Stack *, StackVersion);
// Push a tree and state onto the given version of the stack.
//
// This transfers ownership of the tree to the Stack. Callers that
// need to retain ownership of the tree for their own purposes should
// first retain the tree.
void ts_stack_push(Stack *, StackVersion, Subtree , bool, TSStateId);
// Pop the given number of entries from the given version of the stack. This
// operation can increase the number of stack versions by revealing multiple
// versions which had previously been merged. It returns an array that
// specifies the index of each revealed version and the trees that were
// removed from that version.
StackSliceArray ts_stack_pop_count(Stack *, StackVersion, uint32_t count);
// Remove an error at the top of the given version of the stack.
SubtreeArray ts_stack_pop_error(Stack *, StackVersion);
// Remove any pending trees from the top of the given version of the stack.
StackSliceArray ts_stack_pop_pending(Stack *, StackVersion);
// Remove any all trees from the given version of the stack.
StackSliceArray ts_stack_pop_all(Stack *, StackVersion);
// Get the maximum number of tree nodes reachable from this version of the stack
// since the last error was detected.
unsigned ts_stack_node_count_since_error(const Stack *, StackVersion);
int ts_stack_dynamic_precedence(Stack *, StackVersion);
bool ts_stack_has_advanced_since_error(const Stack *, StackVersion);
// Compute a summary of all the parse states near the top of the given
// version of the stack and store the summary for later retrieval.
void ts_stack_record_summary(Stack *, StackVersion, unsigned max_depth);
// Retrieve a summary of all the parse states near the top of the
// given version of the stack.
StackSummary *ts_stack_get_summary(Stack *, StackVersion);
// Get the total cost of all errors on the given version of the stack.
unsigned ts_stack_error_cost(const Stack *, StackVersion version);
// Merge the given two stack versions if possible, returning true
// if they were successfully merged and false otherwise.
bool ts_stack_merge(Stack *, StackVersion, StackVersion);
// Determine whether the given two stack versions can be merged.
bool ts_stack_can_merge(Stack *, StackVersion, StackVersion);
Subtree ts_stack_resume(Stack *, StackVersion);
void ts_stack_pause(Stack *, StackVersion, Subtree);
void ts_stack_halt(Stack *, StackVersion);
bool ts_stack_is_active(const Stack *, StackVersion);
bool ts_stack_is_paused(const Stack *, StackVersion);
bool ts_stack_is_halted(const Stack *, StackVersion);
void ts_stack_renumber_version(Stack *, StackVersion, StackVersion);
void ts_stack_swap_versions(Stack *, StackVersion, StackVersion);
StackVersion ts_stack_copy_version(Stack *, StackVersion);
// Remove the given version from the stack.
void ts_stack_remove_version(Stack *, StackVersion);
void ts_stack_clear(Stack *);
bool ts_stack_print_dot_graph(Stack *, const TSLanguage *, FILE *);
typedef void (*StackIterateCallback)(void *, TSStateId, uint32_t);
#ifdef __cplusplus
}
#endif
#endif // TREE_SITTER_PARSE_STACK_H_