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52 Commits
v1.1.0 ... master

Author SHA1 Message Date
Josh Holtrop
c24f323ff0 v1.5.1 2024-07-26 22:30:48 -04:00
Josh Holtrop
fec2c28693 Only calculate lookahead tokens when needed - #28 
Lookahead tokens are only need if either:
(1) There is more than one rule that could be reduced in a given parser
state, or
(2) There are shift actions for a state and at least one rule that could
be reduced in the same state (to warn about shift/reduce conflicts).
 2024-07-26 22:08:25 -04:00
Josh Holtrop
61339aeae9 Avoid recalculating reduce_rules - #28 2024-07-26 21:36:41 -04:00
Josh Holtrop
95b3dc6550 Cache ItemSet#next_symbols - #28 2024-07-25 20:33:15 -04:00
Josh Holtrop
74d94fef72 Do not build ItemSet follow sets - #28 2024-07-25 20:02:00 -04:00
Josh Holtrop
588c5e21c7 Cache ItemSet#leading_item_sets return values - #28 2024-07-25 10:42:43 -04:00
Josh Holtrop
5f1c306273 Update CLI usage in README 2024-07-22 21:35:32 -04:00
Josh Holtrop
343e8a7f9e v1.5.0 2024-07-22 21:23:38 -04:00
Josh Holtrop
b3a134bf8d Update vim syntax to highlight "?" and field alias names 2024-07-22 20:39:59 -04:00
Josh Holtrop
4a71dc74fb Update CHANGELOG for v1.5.0 2024-07-22 20:26:04 -04:00
Josh Holtrop
a7348be95d Add rule field aliases - #24 2024-07-22 20:16:52 -04:00
Josh Holtrop
9746b3f2bf Document position tracking fields in user guide - #27 2024-07-21 14:04:51 -04:00
Josh Holtrop
c5b8fc28bd Move INVALID_POSITION from header to C source - #27 2024-07-21 13:39:34 -04:00
Josh Holtrop
092fce61eb Test position validity for empty matching rules - #27 2024-07-21 13:39:30 -04:00
Josh Holtrop
e647248e34 Track start and end position of rules in AST nodes - #27 2024-07-19 15:37:37 -04:00
Josh Holtrop
f4ae1b8601 Add position fields to AST nodes (not populated yet) - #27 2024-07-19 14:34:50 -04:00
Josh Holtrop
eae2e17f41 Test tracking token end positions when the token spans a newline - #27 2024-07-18 12:09:26 -04:00
Josh Holtrop
87d6d29d60 Store token end position - #27 2024-07-18 12:03:44 -04:00
Josh Holtrop
3aced70356 Show line numbers of rules upon conflict - close #23 2024-07-14 20:52:52 -04:00
Josh Holtrop
2dd89445fc Add command line switch to output warnings to stderr - close #26 2024-07-14 15:36:07 -04:00
Josh Holtrop
4ae5ab79b3 Warn on shift/reduce conflicts 2024-07-13 21:35:53 -04:00
Josh Holtrop
69cc8fa67d Always compute lookahead tokens for reduce rules 
Even if they won't be needed for the generated parser, they'll be useful
to detect shift/reduce conflicts.
 2024-07-13 21:01:44 -04:00
Josh Holtrop
7f3eb8f315 Calculate follow token set for an ItemSet 2024-07-13 20:48:28 -04:00
Josh Holtrop
d76e12fea1 Rename "following" to "next" - #25 
The term "following" could potentially imply an association with the
"follow set", however it was used in a non-closed manner.
 2024-07-08 10:14:09 -04:00
Josh Holtrop
911e9505b7 Track token position in AST Token node 2024-05-27 22:10:05 -04:00
Josh Holtrop
aaeb0c4db1 Remove leftover TODO from earlier restructuring 2024-05-27 20:44:42 -04:00
Josh Holtrop
fd89c5c6b3 Add Vim syntax highlighting files for Propane 2024-05-26 14:49:30 -04:00
Josh Holtrop
1468946735 v1.4.0 2024-05-11 11:46:28 -04:00
Josh Holtrop
2bccf3303e Update CHANGELOG 2024-05-09 17:38:18 -04:00
Josh Holtrop
0d1ee74ca6 Give a better error message when a referenced ptype has not been declared 2024-05-09 17:35:27 -04:00
Josh Holtrop
985b180f62 Update CHANGELOG 2024-05-09 11:56:44 -04:00
Josh Holtrop
f3e4941ad8 Allow rule terms to be marked as optional 2024-05-09 11:56:13 -04:00
Josh Holtrop
494afb7307 Allow specifying the start rule name 2024-05-05 12:39:00 -04:00
Josh Holtrop
508dabe760 Update CHANGELOG for v1.4.0 2024-05-04 21:49:13 -04:00
Josh Holtrop
153f9d28f8 Allow user to specify AST node prefix or suffix 
Add ast_prefix and ast_suffix grammar statements.
 2024-05-04 21:49:13 -04:00
Josh Holtrop
d0f542cbd7 v1.3.0 2024-04-23 00:31:56 -04:00
Josh Holtrop
786c78b635 Update CHANGELOG for v1.3.0 2024-04-23 00:21:28 -04:00
Josh Holtrop
f0bd8d8663 Add documentation for AST generation mode - close #22 2024-04-23 00:15:19 -04:00
Josh Holtrop
c7a18ef821 Add AST node field name with no suffix when unique - #22 2024-04-22 21:50:26 -04:00
Josh Holtrop
cb06a56f81 Add AST generation - #22 2024-04-22 20:51:27 -04:00
Josh Holtrop
2b28ef622d Add specs to fully cover cli.rb 2024-04-06 14:37:15 -04:00
Josh Holtrop
19c32b58dc Fix README example grammar 2024-04-06 14:16:27 -04:00
Josh Holtrop
3a8dcac55f v1.2.0 2024-04-02 21:42:33 -04:00
Josh Holtrop
632ab2fe6f Update CHANGELOG for v1.2.0 2024-04-02 21:42:18 -04:00
Josh Holtrop
3eaf0d3d49 allow one line user code blocks - close #21 2024-04-02 17:44:15 -04:00
Josh Holtrop
918dc7b2bb fix generator hang when state transition cycle is present - close #20 2024-04-02 14:27:08 -04:00
Josh Holtrop
5b2cbe53e6 Add backslash escape codes - close #19 2024-03-29 16:45:54 -04:00
Josh Holtrop
1d1590dfda Add API to access unexpected token found - close #18 2024-03-29 15:58:56 -04:00
Josh Holtrop
1c91dcd298 Add token_names API - close #17 2024-03-29 15:02:01 -04:00
Josh Holtrop
5dfd62b756 Add D example to user guide for p_context_init() - close #16 2024-03-29 13:52:16 -04:00
Josh Holtrop
fad7f4fb36 Allow user termination from lexer code blocks - close #15 2024-03-29 13:45:08 -04:00
Josh Holtrop
d55c5e0080 Update CHANGELOG for v1.1.0 2024-01-07 17:48:47 -05:00
48 changed files with 3089 additions and 470 deletions
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59
CHANGELOG.md
View File

@ -1,3 +1,62 @@
## v1.5.1
### Improvements
- Improve performance (#28)
## v1.5.0
### New Features
- Track start and end text positions for tokens and rules in AST node structures (#27)
- Add warnings for shift/reduce conflicts to log file (#25)
- Add -w command line switch to treat warnings as errors and output to stderr (#26)
- Add rule field aliases (#24)
### Improvements
- Show line numbers of rules on conflict (#23)
## v1.4.0
### New Features
- Allow user to specify AST node name prefix or suffix
- Allow specifying the start rule name
- Allow rule terms to be marked as optional
### Improvements
- Give a better error message when a referenced ptype has not been declared
## v1.3.0
### New Features
- Add AST generation (#22)
## v1.2.0
### New Features
- Allow one line user code blocks (#21)
- Add backslash escape codes (#19)
- Add API to access unexpected token found (#18)
- Add token_names API (#17)
- Add D example to user guide for p_context_init() (#16)
- Allow user termination from lexer code blocks (#15)
### Fixes
- Fix generator hang when state transition cycle is present (#20)
## v1.1.0
### New Features
- Add user parser terminations (#13)
- Document generated parser API in user guide (#14)
## v1.0.0
- Initial release

61
README.md
View File

@ -6,7 +6,8 @@ Propane is a LALR Parser Generator (LPG) which:
* generates a built-in lexer to tokenize input
* supports UTF-8 lexer inputs
* generates a table-driven shift/reduce parser to parse input in linear time
* target C or D language outputs
* targets C or D language outputs
* optionally supports automatic full AST generation
* is MIT-licensed
* is distributable as a standalone Ruby script
@ -17,6 +18,7 @@ can be copied into and versioned in a project's source tree.
The only requirement to run Propane is that the system has a Ruby interpreter
installed.
The latest release can be downloaded from [https://github.com/holtrop/propane/releases](https://github.com/holtrop/propane/releases).
Simply copy the `propane` executable script into the desired location within
the project to be built (typically the root of the repository) and mark it
executable.
@ -29,9 +31,14 @@ Propane is typically invoked from the command-line as `./propane`.
Usage: ./propane [options] <input-file> <output-file>
Options:
--log LOG Write log file
--version Show program version and exit
-h, --help Show this usage and exit
-h, --help Show this usage and exit.
--log LOG Write log file. This will show all parser states and their
associated shifts and reduces. It can be helpful when
debugging a grammar.
--version Show program version and exit.
-w Treat warnings as errors. This option will treat shift/reduce
conflicts as fatal errors and will print them to stderr in
addition to the log file.
The user must specify the path to a Propane input grammar file and a path to an
output file.
@ -55,10 +62,10 @@ import std.math;
ptype ulong;
# A few basic arithmetic operators.
token plus /\\+/;
token times /\\*/;
token power /\\*\\*/;
token integer /\\d+/ <<
token plus /\+/;
token times /\*/;
token power /\*\*/;
token integer /\d+/ <<
ulong v;
foreach (c; match)
{
@ -67,38 +74,22 @@ token integer /\\d+/ <<
}
$$ = v;
>>
token lparen /\\(/;
token rparen /\\)/;
token lparen /\(/;
token rparen /\)/;
# Drop whitespace.
drop /\\s+/;
drop /\s+/;
Start -> E1 <<
$$ = $1;
>>
E1 -> E2 <<
$$ = $1;
>>
E1 -> E1 plus E2 <<
$$ = $1 + $3;
>>
E2 -> E3 <<
$$ = $1;
>>
E2 -> E2 times E3 <<
$$ = $1 * $3;
>>
E3 -> E4 <<
$$ = $1;
>>
Start -> E1 << $$ = $1; >>
E1 -> E2 << $$ = $1; >>
E1 -> E1 plus E2 << $$ = $1 + $3; >>
E2 -> E3 << $$ = $1; >>
E2 -> E2 times E3 << $$ = $1 * $3; >>
E3 -> E4 << $$ = $1; >>
E3 -> E3 power E4 <<
$$ = pow($1, $3);
>>
E4 -> integer <<
$$ = $1;
>>
E4 -> lparen E1 rparen <<
$$ = $2;
>>
E4 -> integer << $$ = $1; >>
E4 -> lparen E1 rparen << $$ = $2; >>
```
Grammar files can contain comment lines beginning with `#` which are ignored.

207
assets/parser.c.erb
View File

@ -3,6 +3,17 @@
#include <stdlib.h>
#include <string.h>
/**************************************************************************
* Public data
*************************************************************************/
/** Token names. */
const char * <%= @grammar.prefix %>token_names[] = {
<% @grammar.tokens.each_with_index do |token, index| %>
"<%= token.name %>",
<% end %>
};
/**************************************************************************
* User code blocks
*************************************************************************/
@ -215,7 +226,10 @@ typedef struct
/** Number of bytes of input text used to match. */
size_t length;
/** Input text position delta. */
/** Input text position delta to end of token. */
<%= @grammar.prefix %>position_t end_delta_position;
/** Input text position delta to next code point after token end. */
<%= @grammar.prefix %>position_t delta_position;
/** Accepting lexer state from the match. */
@ -309,9 +323,12 @@ static lexer_state_id_t check_lexer_transition(uint32_t current_state, uint32_t
*
* @param context
* Lexer/parser context structure.
* @param[out] out_token_info
* The lexed token information is stored here if the return value is
* P_SUCCESS.
* @param[out] out_match_info
* The longest match information is stored here if the return value is
* P_SUCCESS or P_DECODE_ERROR.
* @param[out] out_unexpected_input_length
* The unexpected input length is stored here if the return value is
* P_UNEXPECTED_INPUT.
*
* @reval P_SUCCESS
* A token was successfully lexed.
@ -344,6 +361,7 @@ static size_t find_longest_match(<%= @grammar.prefix %>context_t * context,
if (transition_state != INVALID_LEXER_STATE_ID)
{
attempt_match.length += code_point_length;
attempt_match.end_delta_position = attempt_match.delta_position;
if (code_point == '\n')
{
attempt_match.delta_position.row++;
@ -422,13 +440,14 @@ static size_t find_longest_match(<%= @grammar.prefix %>context_t * context,
* Input text does not match any lexer pattern.
* @retval P_DROP
* A drop pattern was matched so the lexer should continue.
* @retval P_USER_TERMINATED
* User code has requested to terminate the lexer.
*/
static size_t attempt_lex_token(<%= @grammar.prefix %>context_t * context, <%= @grammar.prefix %>token_info_t * out_token_info)
{
<%= @grammar.prefix %>token_info_t token_info = {0};
token_info.position = context->text_position;
token_info.token = INVALID_TOKEN_ID;
*out_token_info = token_info; // TODO: remove
lexer_match_info_t match_info;
size_t unexpected_input_length;
size_t result = find_longest_match(context, &match_info, &unexpected_input_length);
@ -441,6 +460,12 @@ static size_t attempt_lex_token(<%= @grammar.prefix %>context_t * context, <%= @
uint8_t const * match = &context->input[context->input_index];
<%= @grammar.prefix %>token_t user_code_token = lexer_user_code(context,
match_info.accepting_state->code_id, match, match_info.length, &token_info);
/* A TERMINATE_TOKEN_ID return code from lexer_user_code() means
* that the user code is requesting to terminate the lexer. */
if (user_code_token == TERMINATE_TOKEN_ID)
{
return P_USER_TERMINATED;
}
/* An invalid token returned from lexer_user_code() means that the
* user code did not explicitly return a token. So only override
* the token to return if the user code does explicitly return a
@ -469,11 +494,22 @@ static size_t attempt_lex_token(<%= @grammar.prefix %>context_t * context, <%= @
}
token_info.token = token_to_accept;
token_info.length = match_info.length;
if (match_info.end_delta_position.row != 0u)
{
token_info.end_position.row = token_info.position.row + match_info.end_delta_position.row;
token_info.end_position.col = match_info.end_delta_position.col;
}
else
{
token_info.end_position.row = token_info.position.row;
token_info.end_position.col = token_info.position.col + match_info.end_delta_position.col;
}
*out_token_info = token_info;
return P_SUCCESS;
case P_EOF:
token_info.token = TOKEN___EOF;
token_info.end_position = token_info.position;
*out_token_info = token_info;
return P_SUCCESS;
@ -511,6 +547,8 @@ static size_t attempt_lex_token(<%= @grammar.prefix %>context_t * context, <%= @
* The decoder encountered invalid text encoding.
* @reval P_UNEXPECTED_INPUT
* Input text does not match any lexer pattern.
* @retval P_USER_TERMINATED
* User code has requested to terminate the lexer.
*/
size_t <%= @grammar.prefix %>lex(<%= @grammar.prefix %>context_t * context, <%= @grammar.prefix %>token_info_t * out_token_info)
{
@ -528,6 +566,9 @@ size_t <%= @grammar.prefix %>lex(<%= @grammar.prefix %>context_t * context, <%=
* Parser
*************************************************************************/
/** Invalid position value. */
#define INVALID_POSITION (<%= @grammar.prefix %>position_t){0xFFFFFFFFu, 0xFFFFFFFFu}
/** Reduce ID type. */
typedef <%= get_type_for(@parser.reduce_table.size) %> reduce_id_t;
@ -587,6 +628,25 @@ typedef struct
* reduce action.
*/
parser_state_id_t n_states;
<% if @grammar.ast %>
/**
* Map of rule components to rule set child fields.
*/
uint16_t const * rule_set_node_field_index_map;
/**
* Number of rule set AST node fields.
*/
uint16_t rule_set_node_field_array_size;
/**
* Whether this rule was a generated optional rule that matched the
* optional target. In this case, propagate the matched target node up
* instead of making a new node for this rule.
*/
bool propagate_optional_target;
<% end %>
} reduce_t;
/** Parser state entry. */
@ -617,19 +677,50 @@ typedef struct
/** Parser value from this state. */
<%= @grammar.prefix %>value_t pvalue;
<% if @grammar.ast %>
/** AST node. */
void * ast_node;
<% end %>
} state_value_t;
/** Common AST node structure. */
typedef struct
{
<%= @grammar.prefix %>position_t position;
<%= @grammar.prefix %>position_t end_position;
void * fields[];
} ASTNode;
/** Parser shift table. */
static const shift_t parser_shift_table[] = {
<% @parser.shift_table.each do |shift| %>
{<%= shift[:symbol_id] %>u, <%= shift[:state_id] %>u},
{<%= shift[:symbol].id %>u, <%= shift[:state_id] %>u},
<% end %>
};
<% if @grammar.ast %>
<% @grammar.rules.each do |rule| %>
<% unless rule.flat_rule_set_node_field_index_map? %>
const uint16_t r_<%= rule.name.gsub("$", "_") %><%= rule.id %>_node_field_index_map[<%= rule.rule_set_node_field_index_map.size %>] = {<%= rule.rule_set_node_field_index_map.map {|v| v.to_s}.join(", ") %>};
<% end %>
<% end %>
<% end %>
/** Parser reduce table. */
static const reduce_t parser_reduce_table[] = {
<% @parser.reduce_table.each do |reduce| %>
{<%= reduce[:token_id] %>u, <%= reduce[:rule_id] %>u, <%= reduce[:rule_set_id] %>u, <%= reduce[:n_states] %>u},
{<%= reduce[:token_id] %>u, <%= reduce[:rule_id] %>u, <%= reduce[:rule_set_id] %>u, <%= reduce[:n_states] %>u
<% if @grammar.ast %>
<% if reduce[:rule].flat_rule_set_node_field_index_map? %>
, NULL
<% else %>
, &r_<%= reduce[:rule].name.gsub("$", "_") %><%= reduce[:rule].id %>_node_field_index_map[0]
<% end %>
, <%= reduce[:rule].rule_set.ast_fields.size %>
, <%= reduce[:propagate_optional_target] %>
<% end %>
},
<% end %>
};
@ -733,6 +824,7 @@ static void state_values_stack_free(state_values_stack_t * stack)
free(stack->entries);
}
<% unless @grammar.ast %>
/**
* Execute user code associated with a parser rule.
*
@ -747,18 +839,19 @@ static size_t parser_user_code(<%= @grammar.prefix %>value_t * _pvalue, uint32_t
{
switch (rule)
{
<% @grammar.rules.each do |rule| %>
<% if rule.code %>
<% @grammar.rules.each do |rule| %>
<% if rule.code %>
case <%= rule.id %>u: {
<%= expand_code(rule.code, true, rule, nil) %>
} break;
<% end %>
<% end %>
<% end %>
default: break;
}
return P_SUCCESS;
}
<% end %>
/**
* Check if the parser should shift to a new state.
@ -820,7 +913,7 @@ static size_t check_reduce(size_t state_id, <%= @grammar.prefix %>token_t token)
* can be accessed with <%= @grammar.prefix %>result().
* @retval P_UNEXPECTED_TOKEN
* An unexpected token was encountered that does not match any grammar rule.
* The value context->token holds the unexpected token.
* The function p_token(&context) can be used to get the unexpected token.
* @reval P_DECODE_ERROR
* The decoder encountered invalid text encoding.
* @reval P_UNEXPECTED_INPUT
@ -832,7 +925,11 @@ size_t <%= @grammar.prefix %>parse(<%= @grammar.prefix %>context_t * context)
<%= @grammar.prefix %>token_t token = INVALID_TOKEN_ID;
state_values_stack_t statevalues;
size_t reduced_rule_set = INVALID_ID;
<% if @grammar.ast %>
void * reduced_parser_node;
<% else %>
<%= @grammar.prefix %>value_t reduced_parser_value;
<% end %>
state_values_stack_init(&statevalues);
state_values_stack_push(&statevalues);
size_t result;
@ -859,7 +956,11 @@ size_t <%= @grammar.prefix %>parse(<%= @grammar.prefix %>context_t * context)
if ((shift_state != INVALID_ID) && (token == TOKEN___EOF))
{
/* Successful parse. */
<% if @grammar.ast %>
context->parse_result = (<%= @grammar.ast_prefix %><%= @grammar.start_rule %><%= @grammar.ast_suffix %> *)state_values_stack_index(&statevalues, -1)->ast_node;
<% else %>
context->parse_result = state_values_stack_index(&statevalues, -1)->pvalue;
<% end %>
result = P_SUCCESS;
break;
}
@ -872,15 +973,28 @@ size_t <%= @grammar.prefix %>parse(<%= @grammar.prefix %>context_t * context)
if (reduced_rule_set == INVALID_ID)
{
/* We shifted a token, mark it consumed. */
token = INVALID_TOKEN_ID;
<% if @grammar.ast %>
<%= @grammar.ast_prefix %>Token<%= @grammar.ast_suffix %> * token_ast_node = malloc(sizeof(<%= @grammar.ast_prefix %>Token<%= @grammar.ast_suffix %>));
token_ast_node->position = token_info.position;
token_ast_node->end_position = token_info.end_position;
token_ast_node->token = token;
token_ast_node->pvalue = token_info.pvalue;
state_values_stack_index(&statevalues, -1)->ast_node = token_ast_node;
<% else %>
state_values_stack_index(&statevalues, -1)->pvalue = token_info.pvalue;
<% end %>
token = INVALID_TOKEN_ID;
}
else
{
/* We shifted a RuleSet. */
<% if @grammar.ast %>
state_values_stack_index(&statevalues, -1)->ast_node = reduced_parser_node;
<% else %>
state_values_stack_index(&statevalues, -1)->pvalue = reduced_parser_value;
<%= @grammar.prefix %>value_t new_parse_result = {0};
reduced_parser_value = new_parse_result;
<% end %>
reduced_rule_set = INVALID_ID;
}
continue;
@ -890,12 +1004,63 @@ size_t <%= @grammar.prefix %>parse(<%= @grammar.prefix %>context_t * context)
if (reduce_index != INVALID_ID)
{
/* We have something to reduce. */
<% if @grammar.ast %>
if (parser_reduce_table[reduce_index].propagate_optional_target)
{
reduced_parser_node = state_values_stack_index(&statevalues, -1)->ast_node;
}
else if (parser_reduce_table[reduce_index].n_states > 0)
{
size_t n_fields = parser_reduce_table[reduce_index].rule_set_node_field_array_size;
ASTNode * node = (ASTNode *)malloc(sizeof(ASTNode) + n_fields * sizeof(void *));
node->position = INVALID_POSITION;
node->end_position = INVALID_POSITION;
for (size_t i = 0; i < n_fields; i++)
{
node->fields[i] = NULL;
}
if (parser_reduce_table[reduce_index].rule_set_node_field_index_map == NULL)
{
for (size_t i = 0; i < parser_reduce_table[reduce_index].n_states; i++)
{
node->fields[i] = state_values_stack_index(&statevalues, -(int)parser_reduce_table[reduce_index].n_states + (int)i)->ast_node;
}
}
else
{
for (size_t i = 0; i < parser_reduce_table[reduce_index].n_states; i++)
{
node->fields[parser_reduce_table[reduce_index].rule_set_node_field_index_map[i]] = state_values_stack_index(&statevalues, -(int)parser_reduce_table[reduce_index].n_states + (int)i)->ast_node;
}
}
bool position_found = false;
for (size_t i = 0; i < n_fields; i++)
{
ASTNode * child = (ASTNode *)node->fields[i];
if ((child != NULL) && <%= @grammar.prefix %>position_valid(child->position))
{
if (!position_found)
{
node->position = child->position;
position_found = true;
}
node->end_position = child->end_position;
}
}
reduced_parser_node = node;
}
else
{
reduced_parser_node = NULL;
}
<% else %>
<%= @grammar.prefix %>value_t reduced_parser_value2 = {0};
if (parser_user_code(&reduced_parser_value2, parser_reduce_table[reduce_index].rule, &statevalues, parser_reduce_table[reduce_index].n_states, context) == P_USER_TERMINATED)
{
return P_USER_TERMINATED;
}
reduced_parser_value = reduced_parser_value2;
<% end %>
reduced_rule_set = parser_reduce_table[reduce_index].rule_set;
state_values_stack_pop(&statevalues, parser_reduce_table[reduce_index].n_states);
continue;
@ -923,9 +1088,17 @@ size_t <%= @grammar.prefix %>parse(<%= @grammar.prefix %>context_t * context)
*
* @return Parse result value.
*/
<% if @grammar.ast %>
<%= @grammar.ast_prefix %><%= @grammar.start_rule %><%= @grammar.ast_suffix %> * <%= @grammar.prefix %>result(<%= @grammar.prefix %>context_t * context)
<% else %>
<%= start_rule_type[1] %> <%= @grammar.prefix %>result(<%= @grammar.prefix %>context_t * context)
<% end %>
{
<% if @grammar.ast %>
return context->parse_result;
<% else %>
return context->parse_result.v_<%= start_rule_type[0] %>;
<% end %>
}
/**
@ -953,3 +1126,13 @@ size_t <%= @grammar.prefix %>user_terminate_code(<%= @grammar.prefix %>context_t
{
return context->user_terminate_code;
}
/**
* Get the parse token.
*
* @return Parse token.
*/
<%= @grammar.prefix %>token_t <%= @grammar.prefix %>token(<%= @grammar.prefix %>context_t * context)
{
return context->token;
}

267
assets/parser.d.erb
View File

@ -8,6 +8,8 @@
module <%= @grammar.modulename %>;
<% end %>
import core.stdc.stdlib : malloc;
/**************************************************************************
* User code blocks
*************************************************************************/
@ -31,7 +33,7 @@ public enum : size_t
}
/** Token type. */
public alias <%= @grammar.prefix %>token_t = <%= get_type_for(@grammar.invalid_token_id) %>;
public alias <%= @grammar.prefix %>token_t = <%= get_type_for(@grammar.terminate_token_id) %>;
/** Token IDs. */
public enum : <%= @grammar.prefix %>token_t
@ -43,21 +45,14 @@ public enum : <%= @grammar.prefix %>token_t
<% end %>
<% end %>
INVALID_TOKEN_ID = <%= @grammar.invalid_token_id %>,
TERMINATE_TOKEN_ID = <%= @grammar.terminate_token_id %>,
}
/** Code point type. */
public alias <%= @grammar.prefix %>code_point_t = uint;
/** Parser values type(s). */
public union <%= @grammar.prefix %>value_t
{
<% @grammar.ptypes.each do |name, typestring| %>
<%= typestring %> v_<%= name %>;
<% end %>
}
/**
* A structure to keep track of parser position.
* A structure to keep track of input position.
*
* This is useful for reporting errors, etc...
*/
@ -68,14 +63,79 @@ public struct <%= @grammar.prefix %>position_t
/** Input text column (0-based). */
uint col;
/** Invalid position value. */
enum INVALID = <%= @grammar.prefix %>position_t(0xFFFF_FFFF, 0xFFFF_FFFF);
/** Return whether the position is valid. */
public @property bool valid()
{
return row != 0xFFFF_FFFFu;
}
}
<% if @grammar.ast %>
/** Parser values type. */
public alias <%= @grammar.prefix %>value_t = <%= @grammar.ptype %>;
<% else %>
/** Parser values type(s). */
public union <%= @grammar.prefix %>value_t
{
<% @grammar.ptypes.each do |name, typestring| %>
<%= typestring %> v_<%= name %>;
<% end %>
}
<% end %>
<% if @grammar.ast %>
/** Common AST node structure. */
private struct ASTNode
{
<%= @grammar.prefix %>position_t position;
<%= @grammar.prefix %>position_t end_position;
void *[0] fields;
}
/** AST node types. @{ */
public struct <%= @grammar.ast_prefix %>Token<%= @grammar.ast_suffix %>
{
/* ASTNode fields must be present in the same order here. */
<%= @grammar.prefix %>position_t position;
<%= @grammar.prefix %>position_t end_position;
<%= @grammar.prefix %>token_t token;
<%= @grammar.prefix %>value_t pvalue;
}
<% @parser.rule_sets.each do |name, rule_set| %>
<% next if name.start_with?("$") %>
<% next if rule_set.optional? %>
public struct <%= @grammar.ast_prefix %><%= name %><%= @grammar.ast_suffix %>
{
<%= @grammar.prefix %>position_t position;
<%= @grammar.prefix %>position_t end_position;
<% rule_set.ast_fields.each do |fields| %>
union
{
<% fields.each do |field_name, type| %>
<%= type %> * <%= field_name %>;
<% end %>
}
<% end %>
}
<% end %>
/** @} */
<% end %>
/** Lexed token information. */
public struct <%= @grammar.prefix %>token_info_t
{
/** Text position where the token was found. */
/** Text position of first code point in token. */
<%= @grammar.prefix %>position_t position;
/** Text position of last code point in token. */
<%= @grammar.prefix %>position_t end_position;
/** Number of input bytes used by the token. */
size_t length;
@ -111,7 +171,11 @@ public struct <%= @grammar.prefix %>context_t
/* Parser context data. */
/** Parse result value. */
<% if @grammar.ast %>
<%= @grammar.ast_prefix %><%= @grammar.start_rule %><%= @grammar.ast_suffix %> * parse_result;
<% else %>
<%= @grammar.prefix %>value_t parse_result;
<% end %>
/** Unexpected token received. */
<%= @grammar.prefix %>token_t token;
@ -335,7 +399,10 @@ private struct lexer_match_info_t
/** Number of bytes of input text used to match. */
size_t length;
/** Input text position delta. */
/** Input text position delta to end of token. */
<%= @grammar.prefix %>position_t end_delta_position;
/** Input text position delta to next code point after token end. */
<%= @grammar.prefix %>position_t delta_position;
/** Accepting lexer state from the match. */
@ -427,9 +494,12 @@ private lexer_state_id_t check_lexer_transition(uint current_state, uint code_po
*
* @param context
* Lexer/parser context structure.
* @param[out] out_token_info
* The lexed token information is stored here if the return value is
* P_SUCCESS.
* @param[out] out_match_info
* The longest match information is stored here if the return value is
* P_SUCCESS or P_DECODE_ERROR.
* @param[out] out_unexpected_input_length
* The unexpected input length is stored here if the return value is
* P_UNEXPECTED_INPUT.
*
* @reval P_SUCCESS
* A token was successfully lexed.
@ -460,6 +530,7 @@ private size_t find_longest_match(<%= @grammar.prefix %>context_t * context,
if (transition_state != INVALID_LEXER_STATE_ID)
{
attempt_match.length += code_point_length;
attempt_match.end_delta_position = attempt_match.delta_position;
if (code_point == '\n')
{
attempt_match.delta_position.row++;
@ -538,13 +609,14 @@ private size_t find_longest_match(<%= @grammar.prefix %>context_t * context,
* Input text does not match any lexer pattern.
* @retval P_DROP
* A drop pattern was matched so the lexer should continue.
* @retval P_USER_TERMINATED
* User code has requested to terminate the lexer.
*/
private size_t attempt_lex_token(<%= @grammar.prefix %>context_t * context, <%= @grammar.prefix %>token_info_t * out_token_info)
{
<%= @grammar.prefix %>token_info_t token_info;
token_info.position = context.text_position;
token_info.token = INVALID_TOKEN_ID;
*out_token_info = token_info; // TODO: remove
lexer_match_info_t match_info;
size_t unexpected_input_length;
size_t result = find_longest_match(context, &match_info, &unexpected_input_length);
@ -557,6 +629,12 @@ private size_t attempt_lex_token(<%= @grammar.prefix %>context_t * context, <%=
string match = context.input[context.input_index..(context.input_index + match_info.length)];
<%= @grammar.prefix %>token_t user_code_token = lexer_user_code(context,
match_info.accepting_state.code_id, match, &token_info);
/* A TERMINATE_TOKEN_ID return code from lexer_user_code() means
* that the user code is requesting to terminate the lexer. */
if (user_code_token == TERMINATE_TOKEN_ID)
{
return P_USER_TERMINATED;
}
/* An invalid token returned from lexer_user_code() means that the
* user code did not explicitly return a token. So only override
* the token to return if the user code does explicitly return a
@ -585,11 +663,22 @@ private size_t attempt_lex_token(<%= @grammar.prefix %>context_t * context, <%=
}
token_info.token = token_to_accept;
token_info.length = match_info.length;
if (match_info.end_delta_position.row != 0u)
{
token_info.end_position.row = token_info.position.row + match_info.end_delta_position.row;
token_info.end_position.col = match_info.end_delta_position.col;
}
else
{
token_info.end_position.row = token_info.position.row;
token_info.end_position.col = token_info.position.col + match_info.end_delta_position.col;
}
*out_token_info = token_info;
return P_SUCCESS;
case P_EOF:
token_info.token = TOKEN___EOF;
token_info.end_position = token_info.position;
*out_token_info = token_info;
return P_SUCCESS;
@ -627,6 +716,8 @@ private size_t attempt_lex_token(<%= @grammar.prefix %>context_t * context, <%=
* The decoder encountered invalid text encoding.
* @reval P_UNEXPECTED_INPUT
* Input text does not match any lexer pattern.
* @retval P_USER_TERMINATED
* User code has requested to terminate the lexer.
*/
public size_t <%= @grammar.prefix %>lex(<%= @grammar.prefix %>context_t * context, <%= @grammar.prefix %>token_info_t * out_token_info)
{
@ -703,6 +794,25 @@ private struct reduce_t
* reduce action.
*/
parser_state_id_t n_states;
<% if @grammar.ast %>
/**
* Map of rule components to rule set child fields.
*/
immutable(ushort) * rule_set_node_field_index_map;
/**
* Number of rule set AST node fields.
*/
ushort rule_set_node_field_array_size;
/**
* Whether this rule was a generated optional rule that matched the
* optional target. In this case, propagate the matched target node up
* instead of making a new node for this rule.
*/
bool propagate_optional_target;
<% end %>
}
/** Parser state entry. */
@ -734,6 +844,11 @@ private struct state_value_t
/** Parser value from this state. */
<%= @grammar.prefix %>value_t pvalue;
<% if @grammar.ast %>
/** AST node. */
void * ast_node;
<% end %>
this(size_t state_id)
{
this.state_id = state_id;
@ -743,14 +858,32 @@ private struct state_value_t
/** Parser shift table. */
private immutable shift_t[] parser_shift_table = [
<% @parser.shift_table.each do |shift| %>
shift_t(<%= shift[:symbol_id] %>u, <%= shift[:state_id] %>u),
shift_t(<%= shift[:symbol].id %>u, <%= shift[:state_id] %>u),
<% end %>
];
<% if @grammar.ast %>
<% @grammar.rules.each do |rule| %>
<% unless rule.flat_rule_set_node_field_index_map? %>
immutable ushort[<%= rule.rule_set_node_field_index_map.size %>] r_<%= rule.name.gsub("$", "_") %><%= rule.id %>_node_field_index_map = [<%= rule.rule_set_node_field_index_map.map {|v| v.to_s}.join(", ") %>];
<% end %>
<% end %>
<% end %>
/** Parser reduce table. */
private immutable reduce_t[] parser_reduce_table = [
<% @parser.reduce_table.each do |reduce| %>
reduce_t(<%= reduce[:token_id] %>u, <%= reduce[:rule_id] %>u, <%= reduce[:rule_set_id] %>u, <%= reduce[:n_states] %>u),
reduce_t(<%= reduce[:token_id] %>u, <%= reduce[:rule_id] %>u, <%= reduce[:rule_set_id] %>u, <%= reduce[:n_states] %>u
<% if @grammar.ast %>
<% if reduce[:rule].flat_rule_set_node_field_index_map? %>
, null
<% else %>
, &r_<%= reduce[:rule].name.gsub("$", "_") %><%= reduce[:rule].id %>_node_field_index_map[0]
<% end %>
, <%= reduce[:rule].rule_set.ast_fields.size %>
, <%= reduce[:propagate_optional_target] %>
<% end %>
),
<% end %>
];
@ -761,6 +894,7 @@ private immutable parser_state_t[] parser_state_table = [
<% end %>
];
<% unless @grammar.ast %>
/**
* Execute user code associated with a parser rule.
*
@ -775,18 +909,19 @@ private size_t parser_user_code(<%= @grammar.prefix %>value_t * _pvalue, uint ru
{
switch (rule)
{
<% @grammar.rules.each do |rule| %>
<% if rule.code %>
<% @grammar.rules.each do |rule| %>
<% if rule.code %>
case <%= rule.id %>u: {
<%= expand_code(rule.code, true, rule, nil) %>
} break;
<% end %>
<% end %>
<% end %>
default: break;
}
return P_SUCCESS;
}
<% end %>
/**
* Check if the parser should shift to a new state.
@ -848,7 +983,7 @@ private size_t check_reduce(size_t state_id, <%= @grammar.prefix %>token_t token
* can be accessed with <%= @grammar.prefix %>result().
* @retval P_UNEXPECTED_TOKEN
* An unexpected token was encountered that does not match any grammar rule.
* The value context.token holds the unexpected token.
* The function p_token(&context) can be used to get the unexpected token.
* @reval P_DECODE_ERROR
* The decoder encountered invalid text encoding.
* @reval P_UNEXPECTED_INPUT
@ -860,7 +995,11 @@ public size_t <%= @grammar.prefix %>parse(<%= @grammar.prefix %>context_t * cont
<%= @grammar.prefix %>token_t token = INVALID_TOKEN_ID;
state_value_t[] statevalues = new state_value_t[](1);
size_t reduced_rule_set = INVALID_ID;
<% if @grammar.ast %>
void * reduced_parser_node;
<% else %>
<%= @grammar.prefix %>value_t reduced_parser_value;
<% end %>
for (;;)
{
if (token == INVALID_TOKEN_ID)
@ -883,7 +1022,11 @@ public size_t <%= @grammar.prefix %>parse(<%= @grammar.prefix %>context_t * cont
if ((shift_state != INVALID_ID) && (token == TOKEN___EOF))
{
/* Successful parse. */
<% if @grammar.ast %>
context.parse_result = cast(<%= @grammar.ast_prefix %><%= @grammar.start_rule %><%= @grammar.ast_suffix %> *)statevalues[$-1].ast_node;
<% else %>
context.parse_result = statevalues[$-1].pvalue;
<% end %>
return P_SUCCESS;
}
}
@ -894,15 +1037,24 @@ public size_t <%= @grammar.prefix %>parse(<%= @grammar.prefix %>context_t * cont
if (reduced_rule_set == INVALID_ID)
{
/* We shifted a token, mark it consumed. */
token = INVALID_TOKEN_ID;
<% if @grammar.ast %>
<%= @grammar.ast_prefix %>Token<%= @grammar.ast_suffix %> * token_ast_node = new <%= @grammar.ast_prefix %>Token<%= @grammar.ast_suffix %>(token_info.position, token_info.end_position, token, token_info.pvalue);
statevalues[$-1].ast_node = token_ast_node;
<% else %>
statevalues[$-1].pvalue = token_info.pvalue;
<% end %>
token = INVALID_TOKEN_ID;
}
else
{
/* We shifted a RuleSet. */
<% if @grammar.ast %>
statevalues[$-1].ast_node = reduced_parser_node;
<% else %>
statevalues[$-1].pvalue = reduced_parser_value;
<%= @grammar.prefix %>value_t new_parse_result;
reduced_parser_value = new_parse_result;
<% end %>
reduced_rule_set = INVALID_ID;
}
continue;
@ -912,12 +1064,63 @@ public size_t <%= @grammar.prefix %>parse(<%= @grammar.prefix %>context_t * cont
if (reduce_index != INVALID_ID)
{
/* We have something to reduce. */
<% if @grammar.ast %>
if (parser_reduce_table[reduce_index].propagate_optional_target)
{
reduced_parser_node = statevalues[$ - 1].ast_node;
}
else if (parser_reduce_table[reduce_index].n_states > 0)
{
size_t n_fields = parser_reduce_table[reduce_index].rule_set_node_field_array_size;
ASTNode * node = cast(ASTNode *)malloc(ASTNode.sizeof + n_fields * (void *).sizeof);
node.position = <%= @grammar.prefix %>position_t.INVALID;
node.end_position = <%= @grammar.prefix %>position_t.INVALID;
foreach (i; 0..n_fields)
{
node.fields[i] = null;
}
if (parser_reduce_table[reduce_index].rule_set_node_field_index_map is null)
{
foreach (i; 0..parser_reduce_table[reduce_index].n_states)
{
node.fields[i] = statevalues[$ - parser_reduce_table[reduce_index].n_states + i].ast_node;
}
}
else
{
foreach (i; 0..parser_reduce_table[reduce_index].n_states)
{
node.fields[parser_reduce_table[reduce_index].rule_set_node_field_index_map[i]] = statevalues[$ - parser_reduce_table[reduce_index].n_states + i].ast_node;
}
}
bool position_found = false;
foreach (i; 0..n_fields)
{
ASTNode * child = cast(ASTNode *)node.fields[i];
if (child && child.position.valid)
{
if (!position_found)
{
node.position = child.position;
position_found = true;
}
node.end_position = child.end_position;
}
}
reduced_parser_node = node;
}
else
{
reduced_parser_node = null;
}
<% else %>
<%= @grammar.prefix %>value_t reduced_parser_value2;
if (parser_user_code(&reduced_parser_value2, parser_reduce_table[reduce_index].rule, statevalues, parser_reduce_table[reduce_index].n_states, context) == P_USER_TERMINATED)
{
return P_USER_TERMINATED;
}
reduced_parser_value = reduced_parser_value2;
<% end %>
reduced_rule_set = parser_reduce_table[reduce_index].rule_set;
statevalues.length -= parser_reduce_table[reduce_index].n_states;
continue;
@ -942,9 +1145,17 @@ public size_t <%= @grammar.prefix %>parse(<%= @grammar.prefix %>context_t * cont
*
* @return Parse result value.
*/
<% if @grammar.ast %>
public <%= @grammar.ast_prefix %><%= @grammar.start_rule %><%= @grammar.ast_suffix %> * <%= @grammar.prefix %>result(<%= @grammar.prefix %>context_t * context)
<% else %>
public <%= start_rule_type[1] %> <%= @grammar.prefix %>result(<%= @grammar.prefix %>context_t * context)
<% end %>
{
<% if @grammar.ast %>
return context.parse_result;
<% else %>
return context.parse_result.v_<%= start_rule_type[0] %>;
<% end %>
}
/**
@ -972,3 +1183,13 @@ public size_t <%= @grammar.prefix %>user_terminate_code(<%= @grammar.prefix %>co
{
return context.user_terminate_code;
}
/**
* Get the parse token.
*
* @return Parse token.
*/
public <%= @grammar.prefix %>token_t <%= @grammar.prefix %>token(<%= @grammar.prefix %>context_t * context)
{
return context.token;
}

95
assets/parser.h.erb
View File

@ -23,7 +23,7 @@
#define <%= @grammar.prefix.upcase %>USER_TERMINATED 6u
/** Token type. */
typedef <%= get_type_for(@grammar.invalid_token_id) %> <%= @grammar.prefix %>token_t;
typedef <%= get_type_for(@grammar.terminate_token_id) %> <%= @grammar.prefix %>token_t;
/** Token IDs. */
<% @grammar.tokens.each_with_index do |token, index| %>
@ -33,23 +33,13 @@ typedef <%= get_type_for(@grammar.invalid_token_id) %> <%= @grammar.prefix %>tok
<% end %>
<% end %>
#define INVALID_TOKEN_ID <%= @grammar.invalid_token_id %>u
#define TERMINATE_TOKEN_ID <%= @grammar.terminate_token_id %>u
/** Code point type. */
typedef uint32_t <%= @grammar.prefix %>code_point_t;
/** User header code blocks. */
<%= @grammar.code_blocks.fetch("header", "") %>
/** Parser values type(s). */
typedef union
{
<% @grammar.ptypes.each do |name, typestring| %>
<%= typestring %> v_<%= name %>;
<% end %>
} <%= @grammar.prefix %>value_t;
/**
* A structure to keep track of parser position.
* A structure to keep track of input position.
*
* This is useful for reporting errors, etc...
*/
@ -62,12 +52,72 @@ typedef struct
uint32_t col;
} <%= @grammar.prefix %>position_t;
/** Return whether the position is valid. */
#define <%= @grammar.prefix %>position_valid(p) ((p).row != 0xFFFFFFFFu)
/** User header code blocks. */
<%= @grammar.code_blocks.fetch("header", "") %>
<% if @grammar.ast %>
/** Parser values type. */
typedef <%= @grammar.ptype %> <%= @grammar.prefix %>value_t;
<% else %>
/** Parser values type(s). */
typedef union
{
<% @grammar.ptypes.each do |name, typestring| %>
<%= typestring %> v_<%= name %>;
<% end %>
} <%= @grammar.prefix %>value_t;
<% end %>
<% if @grammar.ast %>
/** AST node types. @{ */
typedef struct <%= @grammar.ast_prefix %>Token<%= @grammar.ast_suffix %>
{
/* ASTNode fields must be present in the same order here. */
<%= @grammar.prefix %>position_t position;
<%= @grammar.prefix %>position_t end_position;
<%= @grammar.prefix %>token_t token;
<%= @grammar.prefix %>value_t pvalue;
} <%= @grammar.ast_prefix %>Token<%= @grammar.ast_suffix %>;
<% @parser.rule_sets.each do |name, rule_set| %>
<% next if name.start_with?("$") %>
<% next if rule_set.optional? %>
struct <%= name %>;
<% end %>
<% @parser.rule_sets.each do |name, rule_set| %>
<% next if name.start_with?("$") %>
<% next if rule_set.optional? %>
typedef struct <%= @grammar.ast_prefix %><%= name %><%= @grammar.ast_suffix %>
{
<%= @grammar.prefix %>position_t position;
<%= @grammar.prefix %>position_t end_position;
<% rule_set.ast_fields.each do |fields| %>
union
{
<% fields.each do |field_name, type| %>
struct <%= type %> * <%= field_name %>;
<% end %>
};
<% end %>
} <%= @grammar.ast_prefix %><%= name %><%= @grammar.ast_suffix %>;
<% end %>
/** @} */
<% end %>
/** Lexed token information. */
typedef struct
{
/** Text position where the token was found. */
/** Text position of first code point in token. */
<%= @grammar.prefix %>position_t position;
/** Text position of last code point in token. */
<%= @grammar.prefix %>position_t end_position;
/** Number of input bytes used by the token. */
size_t length;
@ -106,7 +156,11 @@ typedef struct
/* Parser context data. */
/** Parse result value. */
<% if @grammar.ast %>
<%= @grammar.ast_prefix %><%= @grammar.start_rule %><%= @grammar.ast_suffix %> * parse_result;
<% else %>
<%= @grammar.prefix %>value_t parse_result;
<% end %>
/** Unexpected token received. */
<%= @grammar.prefix %>token_t token;
@ -115,6 +169,13 @@ typedef struct
size_t user_terminate_code;
} <%= @grammar.prefix %>context_t;
/**************************************************************************
* Public data
*************************************************************************/
/** Token names. */
extern const char * <%= @grammar.prefix %>token_names[];
void <%= @grammar.prefix %>context_init(<%= @grammar.prefix %>context_t * context, uint8_t const * input, size_t input_length);
size_t <%= @grammar.prefix %>decode_code_point(uint8_t const * input, size_t input_length,
@ -124,8 +185,14 @@ size_t <%= @grammar.prefix %>lex(<%= @grammar.prefix %>context_t * context, <%=
size_t <%= @grammar.prefix %>parse(<%= @grammar.prefix %>context_t * context);
<% if @grammar.ast %>
<%= @grammar.ast_prefix %><%= @grammar.start_rule %><%= @grammar.ast_suffix %> * <%= @grammar.prefix %>result(<%= @grammar.prefix %>context_t * context);
<% else %>
<%= start_rule_type[1] %> <%= @grammar.prefix %>result(<%= @grammar.prefix %>context_t * context);
<% end %>
<%= @grammar.prefix %>position_t <%= @grammar.prefix %>position(<%= @grammar.prefix %>context_t * context);
size_t <%= @grammar.prefix %>user_terminate_code(<%= @grammar.prefix %>context_t * context);
<%= @grammar.prefix %>token_t <%= @grammar.prefix %>token(<%= @grammar.prefix %>context_t * context);

524
doc/user_guide.md
View File

@ -14,6 +14,8 @@ Propane is a LALR Parser Generator (LPG) which:
* supports UTF-8 lexer inputs
* generates a table-driven shift/reduce parser to parse input in linear time
* targets C or D language outputs
* optionally supports automatic full AST generation
* tracks input text start and end positions for all matched tokens/rules
* is MIT-licensed
* is distributable as a standalone Ruby script
@ -34,9 +36,14 @@ Propane is typically invoked from the command-line as `./propane`.
Usage: ./propane [options] <input-file> <output-file>
Options:
--log LOG Write log file
--version Show program version and exit
-h, --help Show this usage and exit
-h, --help Show this usage and exit.
--log LOG Write log file. This will show all parser states and their
associated shifts and reduces. It can be helpful when
debugging a grammar.
--version Show program version and exit.
-w Treat warnings as errors. This option will treat shift/reduce
conflicts as fatal errors and will print them to stderr in
addition to the log file.
The user must specify the path to a Propane input grammar file and a path to an
output file.
@ -77,33 +84,15 @@ token rparen /\\)/;
# Drop whitespace.
drop /\\s+/;
Start -> E1 <<
$$ = $1;
>>
E1 -> E2 <<
$$ = $1;
>>
E1 -> E1 plus E2 <<
$$ = $1 + $3;
>>
E2 -> E3 <<
$$ = $1;
>>
E2 -> E2 times E3 <<
$$ = $1 * $3;
>>
E3 -> E4 <<
$$ = $1;
>>
E3 -> E3 power E4 <<
$$ = pow($1, $3);
>>
E4 -> integer <<
$$ = $1;
>>
E4 -> lparen E1 rparen <<
$$ = $2;
>>
Start -> E1 << $$ = $1; >>
E1 -> E2 << $$ = $1; >>
E1 -> E1 plus E2 << $$ = $1 + $3; >>
E2 -> E3 << $$ = $1; >>
E2 -> E2 times E3 << $$ = $1 * $3; >>
E3 -> E4 << $$ = $1; >>
E3 -> E3 power E4 << $$ = pow($1, $3); >>
E4 -> integer << $$ = $1; >>
E4 -> lparen E1 rparen << $$ = $2; >>
```
Grammar files can contain comment lines beginning with `#` which are ignored.
@ -117,8 +106,8 @@ lowercase character and beginning a rule name with an uppercase character.
##> User Code Blocks
User code blocks begin with the line following a "<<" token and end with the
line preceding a grammar line consisting of solely the ">>" token.
User code blocks begin following a "<<" token and end with a ">>" token found
at the end of a line.
All text lines in the code block are copied verbatim into the output file.
### Standalone Code Blocks
@ -189,9 +178,7 @@ This parser value can then be used later in a parser rule.
Example:
```
E1 -> E1 plus E2 <<
$$ = $1 + $3;
>>
E1 -> E1 plus E2 << $$ = $1 + $3; >>
```
Parser rule code blocks appear following a rule expression.
@ -202,6 +189,143 @@ rule.
Parser values for the rules or tokens in the rule pattern can be accessed
positionally with tokens `$1`, `$2`, `$3`, etc...
Parser rule code blocks are not available in AST generation mode.
In AST generation mode, a full parse tree is automatically constructed in
memory for user code to traverse after parsing is complete.
##> AST generation mode - the `ast` statement
To activate AST generation mode, place the `ast` statement in your grammar file:
```
ast;
```
It is recommended to place this statement early in the grammar.
In AST generation mode various aspects of propane's behavior are changed:
* Only one `ptype` is allowed.
* Parser user code blocks are not supported.
* Structure types are generated to represent the parsed tokens and rules as
defined in the grammar.
* The parse result from `p_result()` points to a `Start` struct containing
the entire parse tree for the input. If the user has changed the start rule
with the `start` grammar statement, the name of the start struct will be
given by the user-specified start rule instead of `Start`.
Example AST generation grammar:
```
ast;
ptype int;
token a << $$ = 11; >>
token b << $$ = 22; >>
token one /1/;
token two /2/;
token comma /,/ <<
$$ = 42;
>>
token lparen /\\(/;
token rparen /\\)/;
drop /\\s+/;
Start -> Items;
Items -> Item:item ItemsMore;
Items -> ;
ItemsMore -> comma Item:item ItemsMore;
ItemsMore -> ;
Item -> a;
Item -> b;
Item -> lparen Item:item rparen;
Item -> Dual;
Dual -> One Two;
Dual -> Two One;
One -> one;
Two -> two;
```
The following unit test describes the fields that will be present for an
example parse:
```
string input = "a, ((b)), b";
p_context_t context;
p_context_init(&context, input);
assert_eq(P_SUCCESS, p_parse(&context));
Start * start = p_result(&context);
assert(start.pItems1 !is null);
assert(start.pItems !is null);
Items * items = start.pItems;
assert(items.item !is null);
assert(items.item.pToken1 !is null);
assert_eq(TOKEN_a, items.item.pToken1.token);
assert_eq(11, items.item.pToken1.pvalue);
assert(items.pItemsMore !is null);
ItemsMore * itemsmore = items.pItemsMore;
assert(itemsmore.item !is null);
assert(itemsmore.item.item !is null);
assert(itemsmore.item.item.item !is null);
assert(itemsmore.item.item.item.pToken1 !is null);
assert_eq(TOKEN_b, itemsmore.item.item.item.pToken1.token);
assert_eq(22, itemsmore.item.item.item.pToken1.pvalue);
assert(itemsmore.pItemsMore !is null);
itemsmore = itemsmore.pItemsMore;
assert(itemsmore.item !is null);
assert(itemsmore.item.pToken1 !is null);
assert_eq(TOKEN_b, itemsmore.item.pToken1.token);
assert_eq(22, itemsmore.item.pToken1.pvalue);
assert(itemsmore.pItemsMore is null);
```
## `ast_prefix` and `ast_suffix` statements
In AST generation mode, structure types are defined and named based on the
rules in the grammar.
Additionally, a structure type called `Token` is generated to hold parsed
token information.
These structure names can be modified by using the `ast_prefix` or `ast_suffix`
statements in the grammar file.
The field names that point to instances of the structures are not affected by
the `ast_prefix` or `ast_suffix` values.
For example, if the following two lines were added to the example above:
```
ast_prefix ABC;
ast_suffix XYZ;
```
Then the types would be used as such instead:
```
string input = "a, ((b)), b";
p_context_t context;
p_context_init(&context, input);
assert_eq(P_SUCCESS, p_parse(&context));
ABCStartXYZ * start = p_result(&context);
assert(start.pItems1 !is null);
assert(start.pItems !is null);
ABCItemsXYZ * items = start.pItems;
assert(items.pItem !is null);
assert(items.pItem.pToken1 !is null);
assert_eq(TOKEN_a, items.pItem.pToken1.token);
assert_eq(11, items.pItem.pToken1.pvalue);
assert(items.pItemsMore !is null);
ABCItemsMoreXYZ * itemsmore = items.pItemsMore;
assert(itemsmore.pItem !is null);
assert(itemsmore.pItem.pItem !is null);
assert(itemsmore.pItem.pItem.pItem !is null);
assert(itemsmore.pItem.pItem.pItem.pToken1 !is null);
```
##> Specifying tokens - the `token` statement
The `token` statement allows defining a lexer token and a pattern to match that
@ -238,9 +362,7 @@ lexer.
Example:
```
token if <<
writeln("'if' keyword lexed");
>>
token if << writeln("'if' keyword lexed"); >>
```
The `token` statement is actually a shortcut statement for a combination of a
@ -277,9 +399,7 @@ code but may not result in a matched token.
Example:
```
/foo+/ <<
writeln("saw a foo pattern");
>>
/foo+/ << writeln("saw a foo pattern"); >>
```
This can be especially useful with ${#Lexer modes}.
@ -325,9 +445,16 @@ Regular expressions can include many special characters:
* The `(` character begins a matching group.
* The `{` character begins a count qualifier.
* The `\` character escapes the following character and changes its meaning:
* The `\a` sequence matches an ASCII bell character (0x07).
* The `\b` sequence matches an ASCII backspace character (0x08).
* The `\d` sequence matches any character `0` through `9`.
* The `\f` sequence matches an ASCII form feed character (0x0C).
* The `\n` sequence matches an ASCII new line character (0x0A).
* The `\r` sequence matches an ASCII carriage return character (0x0D).
* The `\s` sequence matches a space, horizontal tab `\t`, carriage return
`\r`, a form feed `\f`, or a vertical tab `\v` character.
* The `\t` sequence matches an ASCII tab character (0x09).
* The `\v` sequence matches an ASCII vertical tab character (0x0B).
* Any other character matches itself.
* The `|` character creates an alternate match.
@ -381,9 +508,7 @@ tokenid str;
mystringvalue = "";
$mode(string);
>>
string: /[^"]+/ <<
mystringvalue += match;
>>
string: /[^"]+/ << mystringvalue ~= match; >>
string: /"/ <<
$mode(default);
return $token(str);
@ -440,20 +565,12 @@ ptype Value;
ptype array = Value[];
ptype dict = Value[string];
Object -> lbrace rbrace <<
$$ = new Value();
>>
Object -> lbrace rbrace << $$ = new Value(); >>
Values (array) -> Value <<
$$ = [$1];
>>
Values -> Values comma Value <<
$$ = $1 ~ [$3];
>>
Values (array) -> Value << $$ = [$1]; >>
Values -> Values comma Value << $$ = $1 ~ [$3]; >>
KeyValue (dict) -> string colon Value <<
$$ = [$1: $3];
>>
KeyValue (dict) -> string colon Value << $$ = [$1: $3]; >>
```
In this example, the default parser value type is `Value`.
@ -469,6 +586,12 @@ In this example:
* a reduced `Values`'s parser value has a type of `Value[]`.
* a reduced `KeyValue`'s parser value has a type of `Value[string]`.
When AST generation mode is active, the `ptype` functionality works differently.
In this mode, only one `ptype` is used by the parser.
Lexer user code blocks may assign a parse value to the generated `Token` node
by assigning to `$$` within a lexer code block.
The type of the parse value `$$` is given by the global `ptype` type.
##> Specifying a parser rule - the rule statement
Rule statements create parser rules which define the grammar that will be
@ -479,66 +602,86 @@ Rules with the same name define a rule set for that name and act as
alternatives that the parser can accept when attempting to match a reference to
that rule.
The grammar file must define a rule with the name `Start` which will be used as
the top-level starting rule that the parser attempts to reduce.
The default start rule name is `Start`.
This can be changed with the `start` statement.
The grammar file must define a rule with the name of the start rule name which
will be used as the top-level starting rule that the parser attempts to reduce.
Rule statements are composed of the name of the rule, a `->` token, the fields
defining the rule pattern that must be matched, and a terminating semicolon or
user code block.
Example:
```
ptype ulong;
token word /[a-z]+/ <<
$$ = match.length;
>>
Start -> word <<
$$ = $1;
>>
start Top;
token word /[a-z]+/ << $$ = match.length; >>
Top -> word << $$ = $1; >>
```
In the above example the `Start` rule is defined to match a single `word`
In the above example the `Top` rule is defined to match a single `word`
token.
Example:
Another example:
```
Start -> E1 <<
$$ = $1;
>>
E1 -> E2 <<
$$ = $1;
>>
E1 -> E1 plus E2 <<
$$ = $1 + $3;
>>
E2 -> E3 <<
$$ = $1;
>>
E2 -> E2 times E3 <<
$$ = $1 * $3;
>>
E3 -> E4 <<
$$ = $1;
>>
E3 -> E3 power E4 <<
$$ = pow($1, $3);
>>
E4 -> integer <<
$$ = $1;
>>
E4 -> lparen E1 rparen <<
$$ = $2;
>>
Start -> E1 << $$ = $1; >>
E1 -> E2 << $$ = $1; >>
E1 -> E1 plus E2 << $$ = $1 + $3; >>
E2 -> E3 << $$ = $1; >>
E2 -> E2 times E3 << $$ = $1 * $3; >>
E3 -> E4 << $$ = $1; >>
E3 -> E3 power E4 << $$ = pow($1, $3); >>
E4 -> integer << $$ = $1; >>
E4 -> lparen E1 rparen << $$ = $2; >>
```
A parser rule has zero or more terms on the right side of its definition.
Each of these terms is either a token name or a rule name.
This example uses the default start rule name of `Start`.
In a parser rule code block, parser values for the right side terms are
accessible as `$1` for the first term's parser value, `$2` for the second
term's parser value, etc...
A parser rule has zero or more fields on the right side of its definition.
Each of these fields is either a token name or a rule name.
A field can optionally be followed by a `:` and then a field alias name.
If present, the field alias name is used to refer to the field value in user
code blocks, or if AST mode is active, the field alias name is used as the
field name in the generated AST node structure.
A field can be immediately followed by a `?` character to signify that it is
optional.
Another example:
```
token public;
token private;
token int;
token ident /[a-zA-Z_][a-zA-Z_0-9]*/;
token semicolon /;/;
IntegerDeclaration -> Visibility? int ident:name semicolon;
Visibility -> public;
Visibility -> private;
```
In a parser rule code block, parser values for the right side fields are
accessible as `$1` for the first field's parser value, `$2` for the second
field's parser value, etc...
For the `IntegerDeclaration` rule, the third field value can also be referred
to as `${name}`.
The `$$` symbol accesses the output parser value for this rule.
The above examples demonstrate how the parser values for the rule components
can be used to produce the parser value for the accepted rule.
Parser rule code blocks are not allowed and not used when AST generation mode
is active.
##> Specifying the parser start rule name - the `start` statement
The start rule can be changed from the default of `Start` by using the `start`
statement.
Example:
```
start MyStartRule;
```
##> Specifying the parser module name - the `module` statement
The `module` statement can be used to specify the module name for a generated
@ -574,23 +717,22 @@ default.
It can also be used when generating multiple lexers/parsers to be used in the
same program to avoid symbol collisions.
##> User termination of the parser
##> User termination of the lexer or parser
Propane supports allowing parser user code blocks to terminate execution of the
parser.
One example use of this functionality is to detect and report an error before
the parser continues parsing the remainder of the input.
Another use of this features is to begin parsing input and determine whether a
different parser should be used instead.
Propane supports allowing lexer or parser user code blocks to terminate
execution of the parser.
Some example uses of this functionality could be to:
To terminate parsing from a parser user code block, use the `$terminate(code)`
function, passing an integer expression argument.
* Detect integer overflow when lexing an integer literal constant.
* Detect and report an error as soon as possible during parsing before continuing to parse any more of the input.
* Determine whether parsing should stop and instead be performed using a different parser version.
To terminate parsing from a lexer or parser user code block, use the
`$terminate(code)` function, passing an integer expression argument.
For example:
```
NewExpression -> new Expression <<
$terminate(42);
>>
NewExpression -> new Expression << $terminate(42); >>
```
The value passed to the `$terminate()` function is known as the "user terminate
@ -636,6 +778,100 @@ A pointer to this instance is passed to the generated functions.
The `p_position_t` structure contains two fields `row` and `col`.
These fields contain the 0-based row and column describing a parser position.
For D targets, the `p_position_t` structure can be checked for validity by
querying the `valid` property.
For C targets, the `p_position_t` structure can be checked for validity by
calling `p_position_valid(pos)` where `pos` is a `p_position_t` structure
instance.
### AST Node Types
If AST generation mode is enabled, a structure type for each rule will be
generated.
The name of the structure type is given by the name of the rule.
Additionally a structure type called `Token` is generated to represent an
AST node which refers to a raw parser token rather than a composite rule.
#### AST Node Fields
All AST nodes have a `position` field specifying the text position of the
beginning of the matched token or rule, and an `end_position` field specifying
the text position of the end of the matched token or rule.
Each of these fields are instances of the `p_position_t` structure.
A `Token` node will always have a valid `position` and `end_position`.
A rule node may not have valid positions if the rule allows for an empty match.
In this case the `position` structure should be checked for validity before
using it.
For C targets this can be accomplished with
`if (p_position_valid(node->position))` and for D targets this can be
accomplished with `if (node.position.valid)`.
A `Token` node has the following additional fields:
* `token` which specifies which token was parsed (one of `TOKEN_*`)
* `pvalue` which specifies the parser value for the token. If a lexer user
code block assigned to `$$`, the assigned value will be stored here.
AST node structures for rules contain generated fields based on the
right hand side components specified for all rules of a given name.
In this example:
```
Start -> Items;
Items -> Item ItemsMore;
Items -> ;
```
The `Start` structure will have a field called `pItems` and another field of
the same name but with a positional suffix (`pItems1`) which both point to the
parsed `Items` node.
Their value will be null if the parsed `Items` rule was empty.
The `Items` structure will have fields:
* `pItem` and `pItem1` which point to the parsed `Item` structure.
* `pItemsMore` and `pItemsMore2` which point to the parsed `ItemsMore` structure.
If a rule can be empty (for example in the second `Items` rule above), then
an instance of a pointer to that rule's generated AST node will be null if the
parser matches the empty rule pattern.
The non-positional AST node field pointer will not be generated if there are
multiple positions in which an instance of the node it points to could be
present.
For example, in the below rules:
```
Dual -> One Two;
Dual -> Two One;
```
The generated `Dual` structure will contain `pOne1`, `pTwo2`, `pTwo1`, and
`pOne2` fields.
However, a `pOne` field and `pTwo` field will not be generated since it would
be ambiguous which one was matched.
If the first rule is matched, then `pOne1` and `pTwo2` will be non-null while
`pTwo1` and `pOne2` will be null.
If the second rule is matched instead, then the opposite would be the case.
If a field alias is present in a rule definition, an additional field will be
generated in the AST node with the field alias name.
For example:
```
Exp -> Exp:left plus ExpB:right;
```
In the generated `Exp` structure, the fields `pExp`, `pExp1`, and `left` will
all point to the same child node (an instance of the `Exp` structure), and the
fields `pExpB`, `pExpB3`, and `right` will all point to the same child node
(an instance of the `ExpB` structure).
##> Functions
### `p_context_init`
@ -645,13 +881,20 @@ structure.
The input to be used for lexing/parsing is passed in when initializing the
context structure.
Example:
C example:
```
p_context_t context;
p_context_init(&context, input, input_length);
```
D example:
```
p_context_t context;
p_context_init(&context, input);
```
### `p_parse`
The `p_parse()` function is the main entry point to the parser.
@ -665,6 +908,24 @@ p_context_init(&context, input, input_length);
size_t result = p_parse(&context);
```
### `p_position_valid`
The `p_position_valid()` function is only generated for C targets.
it is used to determine whether or not a `p_position_t` structure is valid.
Example:
```
if (p_position_valid(node->position))
{
....
}
```
For D targets, rather than using `p_position_valid()`, the `valid` property
function of the `p_position_t` structure can be queried
(e.g. `if (node.position.valid)`).
### `p_result`
The `p_result()` function can be used to retrieve the final parse value after
@ -682,6 +943,9 @@ if (p_parse(&context) == P_SUCCESS)
}
```
If AST generation mode is active, then the `p_result()` function returns a
`Start *` pointing to the `Start` AST structure.
### `p_position`
The `p_position()` function can be used to retrieve the parser position where
@ -718,6 +982,44 @@ if (p_parse(&context) == P_USER_TERMINATED)
}
```
### `p_token`
The `p_token()` function can be used to retrieve the current parse token.
This is useful after `p_parse()` returns a `P_UNEXPECTED_TOKEN` value.
terminate code after `p_parse()` returns a `P_USER_TERMINATED` value to
indicate what token the parser was not expecting.
Example:
```
if (p_parse(&context) == P_UNEXPECTED_TOKEN)
{
p_token_t unexpected_token = p_token(&context);
}
```
##> Data
### `p_token_names`
The `p_token_names` array contains the grammar-specified token names.
It is indexed by the token ID.
C example:
```
p_context_t context;
p_context_init(&context, input, input_length);
size_t result = p_parse(&context);
if (p_parse(&context) == P_UNEXPECTED_TOKEN)
{
p_position_t error_position = p_position(&context);
fprintf(stderr, "Error: unexpected token `%s' at row %u column %u\n",
p_token_names[context.token],
error_position.row + 1, error_position.col + 1);
}
```
#> License
Propane is licensed under the terms of the MIT License:

1
extra/vim/ftdetect/propane.vim Normal file
View File

@ -0,0 +1 @@
au BufNewFile,BufRead *.propane set filetype=propane

33
extra/vim/syntax/propane.vim Normal file
View File

@ -0,0 +1,33 @@
" Vim syntax file for Propane
" Language: propane
" Maintainer: Josh Holtrop
" URL: https://github.com/holtrop/propane
if exists("b:current_syntax")
finish
endif
if !exists("b:propane_subtype")
let b:propane_subtype = "d"
endif
exe "syn include @propaneTarget syntax/".b:propane_subtype.".vim"
syn region propaneTarget matchgroup=propaneDelimiter start="<<" end=">>$" contains=@propaneTarget keepend
syn match propaneComment "#.*"
syn match propaneOperator "->"
syn match propaneFieldAlias ":[a-zA-Z0-9_]\+" contains=propaneFieldOperator
syn match propaneFieldOperator ":" contained
syn match propaneOperator "?"
syn keyword propaneKeyword ast ast_prefix ast_suffix drop module prefix ptype start token tokenid
syn region propaneRegex start="/" end="/" skip="\\/"
hi def link propaneComment Comment
hi def link propaneKeyword Keyword
hi def link propaneRegex String
hi def link propaneOperator Operator
hi def link propaneFieldOperator Operator
hi def link propaneDelimiter Delimiter
hi def link propaneFieldAlias Identifier

4
lib/propane.rb
View File

@ -31,10 +31,10 @@ class Propane
class << self
def run(input_file, output_file, log_file)
def run(input_file, output_file, log_file, options)
begin
grammar = Grammar.new(File.read(input_file))
generator = Generator.new(grammar, output_file, log_file)
generator = Generator.new(grammar, output_file, log_file, options)
generator.generate
rescue Error => e
$stderr.puts e.message

18
lib/propane/cli.rb
View File

@ -4,15 +4,21 @@ class Propane
USAGE = <<EOF
Usage: #{$0} [options] <input-file> <output-file>
Options:
--log LOG Write log file
--version Show program version and exit
-h, --help Show this usage and exit
-h, --help Show this usage and exit.
--log LOG Write log file. This will show all parser states and their
associated shifts and reduces. It can be helpful when
debugging a grammar.
--version Show program version and exit.
-w Treat warnings as errors. This option will treat shift/reduce
conflicts as fatal errors and will print them to stderr in
addition to the log file.
EOF
class << self
def run(args)
params = []
options = {}
log_file = nil
i = 0
while i < args.size
@ -24,11 +30,13 @@ EOF
log_file = args[i]
end
when "--version"
puts "propane v#{VERSION}"
puts "propane version #{VERSION}"
return 0
when "-h", "--help"
puts USAGE
return 0
when "-w"
options[:warnings_as_errors] = true
when /^-/
$stderr.puts "Error: unknown option #{arg}"
return 1
@ -45,7 +53,7 @@ EOF
$stderr.puts "Error: cannot read #{params[0]}"
return 2
end
Propane.run(*params, log_file)
Propane.run(*params, log_file, options)
end
end

109
lib/propane/generator.rb
View File

@ -2,7 +2,7 @@ class Propane
class Generator
def initialize(grammar, output_file, log_file)
def initialize(grammar, output_file, log_file, options)
@grammar = grammar
@output_file = output_file
if log_file
@ -16,6 +16,7 @@ class Propane
else
"d"
end
@options = options
process_grammar!
end
@ -51,6 +52,7 @@ class Propane
unless found_default
raise Error.new("No patterns found for default mode")
end
check_ptypes!
# Add EOF token.
@grammar.tokens << Token.new("$EOF", nil, nil)
tokens_by_name = {}
@ -66,11 +68,14 @@ class Propane
tokens_by_name[token.name] = token
end
# Check for user start rule.
unless @grammar.rules.find {|rule| rule.name == "Start"}
raise Error.new("Start rule not found")
unless @grammar.rules.find {|rule| rule.name == @grammar.start_rule}
raise Error.new("Start rule `#{@grammar.start_rule}` not found")
end
# Add "real" start rule.
@grammar.rules.unshift(Rule.new("$Start", ["Start", "$EOF"], nil, nil, nil))
@grammar.rules.unshift(Rule.new("$Start", [@grammar.start_rule, "$EOF"], nil, nil, nil))
# Generate and add rules for optional components.
generate_optional_component_rules!(tokens_by_name)
# Build rule sets.
rule_sets = {}
rule_set_id = @grammar.tokens.size
@grammar.rules.each_with_index do |rule, rule_id|
@ -119,10 +124,55 @@ class Propane
end
end
determine_possibly_empty_rulesets!(rule_sets)
rule_sets.each do |name, rule_set|
rule_set.finalize(@grammar)
end
# Generate the lexer.
@lexer = Lexer.new(@grammar)
# Generate the parser.
@parser = Parser.new(@grammar, rule_sets, @log)
@parser = Parser.new(@grammar, rule_sets, @log, @options)
end
# Check that any referenced ptypes have been defined.
def check_ptypes!
(@grammar.patterns + @grammar.tokens + @grammar.rules).each do |potor|
if potor.ptypename
unless @grammar.ptypes.include?(potor.ptypename)
raise Error.new("Error: Line #{potor.line_number}: ptype #{potor.ptypename} not declared. Declare with `ptype` statement.")
end
end
end
end
# Generate and add rules for any optional components.
def generate_optional_component_rules!(tokens_by_name)
optional_rules_added = Set.new
@grammar.rules.each do |rule|
rule.components.each do |component|
if component =~ /^(.*)\?$/
c = $1
unless optional_rules_added.include?(component)
# Create two rules for the optional component: one empty and
# one just matching the component.
# We need to find the ptypename for the optional component in
# order to copy it to the generated rules.
if tokens_by_name[c]
# The optional component is a token.
ptypename = tokens_by_name[c].ptypename
else
# The optional component must be a rule, so find any instance
# of that rule that specifies a ptypename.
ptypename = @grammar.rules.reduce(nil) do |result, rule|
rule.name == c && rule.ptypename ? rule.ptypename : result
end
end
@grammar.rules << Rule.new(component, [], nil, ptypename, rule.line_number)
@grammar.rules << Rule.new(component, [c], "$$ = $1;\n", ptypename, rule.line_number)
optional_rules_added << component
end
end
end
end
end
# Determine which grammar rules could expand to empty sequences.
@ -198,6 +248,16 @@ class Propane
code = code.gsub(/\$token\(([$\w]+)\)/) do |match|
"TOKEN_#{Token.code_name($1)}"
end
code = code.gsub(/\$terminate\((.*)\);/) do |match|
user_terminate_code = $1
retval = rule ? "P_USER_TERMINATED" : "TERMINATE_TOKEN_ID"
case @language
when "c"
"context->user_terminate_code = (#{user_terminate_code}); return #{retval};"
when "d"
"context.user_terminate_code = (#{user_terminate_code}); return #{retval};"
end
end
if parser
code = code.gsub(/\$\$/) do |match|
case @language
@ -216,22 +276,35 @@ class Propane
"statevalues[$-1-n_states+#{index}].pvalue.v_#{rule.components[index - 1].ptypename}"
end
end
code = code.gsub(/\$terminate\((.*)\);/) do |match|
user_terminate_code = $1
case @language
when "c"
"context->user_terminate_code = (#{user_terminate_code}); return P_USER_TERMINATED;"
when "d"
"context.user_terminate_code = (#{user_terminate_code}); return P_USER_TERMINATED;"
code = code.gsub(/\$\{(\w+)\}/) do |match|
aliasname = $1
if index = rule.aliases[aliasname]
case @language
when "c"
"state_values_stack_index(statevalues, -(int)n_states + #{index})->pvalue.v_#{rule.components[index].ptypename}"
when "d"
"statevalues[$-n_states+#{index}].pvalue.v_#{rule.components[index].ptypename}"
end
else
raise Error.new("Field alias '#{aliasname}' not found")
end
end
else
code = code.gsub(/\$\$/) do |match|
case @language
when "c"
"out_token_info->pvalue.v_#{pattern.ptypename}"
when "d"
"out_token_info.pvalue.v_#{pattern.ptypename}"
if @grammar.ast
case @language
when "c"
"out_token_info->pvalue"
when "d"
"out_token_info.pvalue"
end
else
case @language
when "c"
"out_token_info->pvalue.v_#{pattern.ptypename}"
when "d"
"out_token_info.pvalue.v_#{pattern.ptypename}"
end
end
end
code = code.gsub(/\$mode\(([a-zA-Z_][a-zA-Z_0-9]*)\)/) do |match|
@ -257,7 +330,7 @@ class Propane
# Start rule parser value type name and type string.
def start_rule_type
start_rule = @grammar.rules.find do |rule|
rule.name == "Start"
rule.name == @grammar.start_rule
end
[start_rule.ptypename, @grammar.ptypes[start_rule.ptypename]]
end

78
lib/propane/grammar.rb
View File

@ -5,9 +5,13 @@ class Propane
# Reserve identifiers beginning with a double-underscore for internal use.
IDENTIFIER_REGEX = /(?:[a-zA-Z]|_[a-zA-Z0-9])[a-zA-Z_0-9]*/
attr_reader :ast
attr_reader :ast_prefix
attr_reader :ast_suffix
attr_reader :modulename
attr_reader :patterns
attr_reader :rules
attr_reader :start_rule
attr_reader :tokens
attr_reader :code_blocks
attr_reader :ptypes
@ -15,6 +19,7 @@ class Propane
def initialize(input)
@patterns = []
@start_rule = "Start"
@tokens = []
@rules = []
@code_blocks = {}
@ -24,6 +29,9 @@ class Propane
@input = input.gsub("\r\n", "\n")
@ptypes = {"default" => "void *"}
@prefix = "p_"
@ast = false
@ast_prefix = ""
@ast_suffix = ""
parse_grammar!
end
@ -35,6 +43,10 @@ class Propane
@tokens.size
end
def terminate_token_id
@tokens.size + 1
end
private
def parse_grammar!
@ -47,9 +59,13 @@ class Propane
if parse_white_space!
elsif parse_comment_line!
elsif @mode.nil? && parse_mode_label!
elsif parse_ast_statement!
elsif parse_ast_prefix_statement!
elsif parse_ast_suffix_statement!
elsif parse_module_statement!
elsif parse_ptype_statement!
elsif parse_pattern_statement!
elsif parse_start_statement!
elsif parse_token_statement!
elsif parse_tokenid_statement!
elsif parse_drop_statement!
@ -78,6 +94,24 @@ class Propane
consume!(/#.*\n/)
end
def parse_ast_statement!
if consume!(/ast\s*;/)
@ast = true
end
end
def parse_ast_prefix_statement!
if md = consume!(/ast_prefix\s+(\w+)\s*;/)
@ast_prefix = md[1]
end
end
def parse_ast_suffix_statement!
if md = consume!(/ast_suffix\s+(\w+)\s*;/)
@ast_suffix = md[1]
end
end
def parse_module_statement!
if consume!(/module\s+/)
md = consume!(/([\w.]+)\s*/, "expected module name")
@ -92,6 +126,9 @@ class Propane
if consume!(/ptype\s+/)
name = "default"
if md = consume!(/(#{IDENTIFIER_REGEX})\s*=\s*/)
if @ast
raise Error.new("Multiple ptypes are unsupported in AST mode")
end
name = md[1]
end
md = consume!(/([^;]+);/, "expected parser result type expression")
@ -104,12 +141,15 @@ class Propane
md = consume!(/(#{IDENTIFIER_REGEX})\s*/, "expected token name")
name = md[1]
if md = consume!(/\((#{IDENTIFIER_REGEX})\)\s*/)
if @ast
raise Error.new("Multiple ptypes are unsupported in AST mode")
end
ptypename = md[1]
end
pattern = parse_pattern! || name
consume!(/\s+/)
unless code = parse_code_block!
consume!(/;/, "expected pattern or `;' or code block")
consume!(/;/, "expected `;' or code block")
end
token = Token.new(name, ptypename, @line_number)
@tokens << token
@ -125,6 +165,9 @@ class Propane
md = consume!(/(#{IDENTIFIER_REGEX})\s*/, "expected token name")
name = md[1]
if md = consume!(/\((#{IDENTIFIER_REGEX})\)\s*/)
if @ast
raise Error.new("Multiple ptypes are unsupported in AST mode")
end
ptypename = md[1]
end
consume!(/;/, "expected `;'");
@ -152,10 +195,17 @@ class Propane
def parse_rule_statement!
if md = consume!(/(#{IDENTIFIER_REGEX})\s*(?:\((#{IDENTIFIER_REGEX})\))?\s*->\s*/)
rule_name, ptypename = *md[1, 2]
md = consume!(/((?:#{IDENTIFIER_REGEX}\s*)*)\s*/, "expected rule component list")
if @ast && ptypename
raise Error.new("Multiple ptypes are unsupported in AST mode")
end
md = consume!(/((?:#{IDENTIFIER_REGEX}(?::#{IDENTIFIER_REGEX})?\??\s*)*)\s*/, "expected rule component list")
components = md[1].strip.split(/\s+/)
unless code = parse_code_block!
consume!(/;/, "expected pattern or `;' or code block")
if @ast
consume!(/;/, "expected `;'")
else
unless code = parse_code_block!
consume!(/;/, "expected `;' or code block")
end
end
@rules << Rule.new(rule_name, components, code, ptypename, @line_number)
@mode = nil
@ -167,6 +217,9 @@ class Propane
if pattern = parse_pattern!
consume!(/\s+/)
if md = consume!(/\((#{IDENTIFIER_REGEX})\)\s*/)
if @ast
raise Error.new("Multiple ptypes are unsupported in AST mode")
end
ptypename = md[1]
end
unless code = parse_code_block!
@ -178,9 +231,17 @@ class Propane
end
end
def parse_start_statement!
if md = consume!(/start\s+(\w+)\s*;/)
@start_rule = md[1]
end
end
def parse_code_block_statement!
if md = consume!(/<<([a-z]*)\n(.*?)^>>\n/m)
if md = consume!(/<<([a-z]*)(.*?)>>\n/m)
name, code = md[1..2]
code.sub!(/\A\n/, "")
code += "\n" unless code.end_with?("\n")
if @code_blocks[name]
@code_blocks[name] += code
else
@ -218,8 +279,11 @@ class Propane
end
def parse_code_block!
if md = consume!(/<<\n(.*?)^>>\n/m)
md[1]
if md = consume!(/<<(.*?)>>\n/m)
code = md[1]
code.sub!(/\A\n/, "")
code += "\n" unless code.end_with?("\n")
code
end
end

132
lib/propane/parser.rb
View File

@ -7,12 +7,14 @@ class Propane
attr_reader :reduce_table
attr_reader :rule_sets
def initialize(grammar, rule_sets, log)
def initialize(grammar, rule_sets, log, options)
@grammar = grammar
@rule_sets = rule_sets
@log = log
@item_sets = []
@item_sets_set = {}
@warnings = Set.new
@options = options
start_item = Item.new(grammar.rules.first, 0)
eval_item_sets = Set[ItemSet.new([start_item])]
@ -23,10 +25,10 @@ class Propane
item_set.id = @item_sets.size
@item_sets << item_set
@item_sets_set[item_set] = item_set
item_set.following_symbols.each do |following_symbol|
unless following_symbol.name == "$EOF"
following_set = item_set.build_following_item_set(following_symbol)
eval_item_sets << following_set
item_set.next_symbols.each do |next_symbol|
unless next_symbol.name == "$EOF"
next_item_set = item_set.build_next_item_set(next_symbol)
eval_item_sets << next_item_set
end
end
end
@ -37,8 +39,11 @@ class Propane
end
build_reduce_actions!
write_log!
build_tables!
write_log!
if @warnings.size > 0 && @options[:warnings_as_errors]
raise Error.new("Fatal errors (-w):\n" + @warnings.join("\n"))
end
end
private
@ -48,27 +53,37 @@ class Propane
@shift_table = []
@reduce_table = []
@item_sets.each do |item_set|
shift_entries = item_set.following_symbols.map do |following_symbol|
shift_entries = item_set.next_symbols.map do |next_symbol|
state_id =
if following_symbol.name == "$EOF"
if next_symbol.name == "$EOF"
0
else
item_set.following_item_set[following_symbol].id
item_set.next_item_set[next_symbol].id
end
{
symbol_id: following_symbol.id,
symbol: next_symbol,
state_id: state_id,
}
end
unless item_set.reduce_rules.empty?
shift_entries.each do |shift_entry|
token = shift_entry[:symbol]
if get_lookahead_reduce_actions_for_item_set(item_set).include?(token)
rule = item_set.reduce_actions[token]
@warnings << "Shift/Reduce conflict (state #{item_set.id}) between token #{token.name} and rule #{rule.name} (defined on line #{rule.line_number})"
end
end
end
reduce_entries =
case ra = item_set.reduce_actions
when Rule
[{token_id: @grammar.invalid_token_id, rule_id: ra.id,
rule_set_id: ra.rule_set.id, n_states: ra.components.size}]
when Hash
ra.map do |token, rule|
{token_id: token.id, rule_id: rule.id,
rule_set_id: rule.rule_set.id, n_states: rule.components.size}
if rule = item_set.reduce_rule
[{token_id: @grammar.invalid_token_id, rule_id: rule.id, rule: rule,
rule_set_id: rule.rule_set.id, n_states: rule.components.size,
propagate_optional_target: rule.optional? && rule.components.size == 1}]
elsif reduce_actions = item_set.reduce_actions
reduce_actions.map do |token, rule|
{token_id: token.id, rule_id: rule.id, rule: rule,
rule_set_id: rule.rule_set.id, n_states: rule.components.size,
propagate_optional_target: rule.optional? && rule.components.size == 1}
end
else
[]
@ -85,11 +100,11 @@ class Propane
end
def process_item_set(item_set)
item_set.following_symbols.each do |following_symbol|
unless following_symbol.name == "$EOF"
following_set = @item_sets_set[item_set.build_following_item_set(following_symbol)]
item_set.following_item_set[following_symbol] = following_set
following_set.in_sets << item_set
item_set.next_symbols.each do |next_symbol|
unless next_symbol.name == "$EOF"
next_item_set = @item_sets_set[item_set.build_next_item_set(next_symbol)]
item_set.next_item_set[next_symbol] = next_item_set
next_item_set.in_sets << item_set
end
end
end
@ -99,7 +114,7 @@ class Propane
# @return [void]
def build_reduce_actions!
@item_sets.each do |item_set|
item_set.reduce_actions = build_reduce_actions_for_item_set(item_set)
build_reduce_actions_for_item_set(item_set)
end
end
@ -108,38 +123,55 @@ class Propane
# @param item_set [ItemSet]
# ItemSet (parser state)
#
# @return [nil, Rule, Hash]
# If no reduce actions are possible for the given item set, nil.
# If only one reduce action is possible for the given item set, the Rule
# to reduce.
# Otherwise, a mapping of lookahead Tokens to the Rules to reduce.
# @return [void]
def build_reduce_actions_for_item_set(item_set)
# To build the reduce actions, we start by looking at any
# "complete" items, i.e., items where the parse position is at the
# end of a rule. These are the only rules that are candidates for
# reduction in the current ItemSet.
reduce_rules = Set.new(item_set.items.select(&:complete?).map(&:rule))
item_set.reduce_rules = Set.new(item_set.items.select(&:complete?).map(&:rule))
# If there are no rules to reduce for this ItemSet, we're done here.
return nil if reduce_rules.size == 0
if item_set.reduce_rules.size == 1
item_set.reduce_rule = item_set.reduce_rules.first
end
# If there is exactly one rule to reduce for this ItemSet, then do not
# figure out the lookaheads; just reduce it.
return reduce_rules.first if reduce_rules.size == 1
if item_set.reduce_rules.size > 1
# Force item_set.reduce_actions to be built to store the lookahead
# tokens for the possible reduce rules if there is more than one.
get_lookahead_reduce_actions_for_item_set(item_set)
end
end
# Otherwise, we have more than one possible rule to reduce.
# Get the reduce actions for a single item set (parser state).
#
# @param item_set [ItemSet]
# ItemSet (parser state)
#
# @return [Hash]
# Mapping of lookahead Tokens to the Rules to reduce.
def get_lookahead_reduce_actions_for_item_set(item_set)
item_set.reduce_actions ||= build_lookahead_reduce_actions_for_item_set(item_set)
end
# Build the reduce actions for a single item set (parser state).
#
# @param item_set [ItemSet]
# ItemSet (parser state)
#
# @return [Hash]
# Mapping of lookahead Tokens to the Rules to reduce.
def build_lookahead_reduce_actions_for_item_set(item_set)
# We will be looking for all possible tokens that can follow instances of
# these rules. Rather than looking through the entire grammar for the
# possible following tokens, we will only look in the item sets leading
# up to this one. This restriction gives us a more precise lookahead set,
# and allows us to parse LALR grammars.
item_sets = item_set.leading_item_sets
reduce_rules.reduce({}) do |reduce_actions, reduce_rule|
item_sets = Set[item_set] + item_set.leading_item_sets
item_set.reduce_rules.reduce({}) do |reduce_actions, reduce_rule|
lookahead_tokens_for_rule = build_lookahead_tokens_to_reduce(reduce_rule, item_sets)
lookahead_tokens_for_rule.each do |lookahead_token|
if existing_reduce_rule = reduce_actions[lookahead_token]
raise Error.new("Error: reduce/reduce conflict between rule #{existing_reduce_rule.id} (#{existing_reduce_rule.name}) and rule #{reduce_rule.id} (#{reduce_rule.name})")
raise Error.new("Error: reduce/reduce conflict (state #{item_set.id}) between rule #{existing_reduce_rule.name}##{existing_reduce_rule.id} (defined on line #{existing_reduce_rule.line_number}) and rule #{reduce_rule.name}##{reduce_rule.id} (defined on line #{reduce_rule.line_number})")
end
reduce_actions[lookahead_token] = reduce_rule
end
@ -181,9 +213,9 @@ class Propane
# tokens to form the lookahead token set.
item_sets.each do |item_set|
item_set.items.each do |item|
if item.following_symbol == rule_set
if item.next_symbol == rule_set
(1..).each do |offset|
case symbol = item.following_symbol(offset)
case symbol = item.next_symbol(offset)
when nil
rule_set = item.rule.rule_set
unless checked_rule_sets.include?(rule_set)
@ -240,20 +272,26 @@ class Propane
@log.puts
@log.puts " Incoming states: #{incoming_ids.join(", ")}"
@log.puts " Outgoing states:"
item_set.following_item_set.each do |following_symbol, following_item_set|
@log.puts " #{following_symbol.name} => #{following_item_set.id}"
item_set.next_item_set.each do |next_symbol, next_item_set|
@log.puts " #{next_symbol.name} => #{next_item_set.id}"
end
@log.puts
@log.puts " Reduce actions:"
case item_set.reduce_actions
when Rule
@log.puts " * => rule #{item_set.reduce_actions.id}, rule set #{@rule_sets[item_set.reduce_actions.name].id} (#{item_set.reduce_actions.name})"
when Hash
if item_set.reduce_rule
@log.puts " * => rule #{item_set.reduce_rule.id}, rule set #{@rule_sets[item_set.reduce_rule.name].id} (#{item_set.reduce_rule.name})"
elsif item_set.reduce_actions
item_set.reduce_actions.each do |token, rule|
@log.puts " lookahead #{token.name} => #{rule.name} (#{rule.id}), rule set ##{rule.rule_set.id}"
end
end
end
if @warnings.size > 0
@log.puts
@log.puts "Warnings:"
@warnings.each do |warning|
@log.puts " #{warning}"
end
end
end
end

24
lib/propane/parser/item.rb
View File

@ -56,7 +56,7 @@ class Propane
# Return the set of Items obtained by "closing" the current item.
#
# If the following symbol for the current item is another Rule name, then
# If the next symbol for the current item is another Rule name, then
# this method will return all Items for that Rule with a position of 0.
# Otherwise, an empty Array is returned.
#
@ -81,17 +81,17 @@ class Propane
@position == @rule.components.size
end
# Get the following symbol for the Item.
# Get the next symbol for the Item.
#
# That is, the symbol which follows the parse position marker in the
# That is, the symbol which is after the parse position marker in the
# current Item.
#
# @param offset [Integer]
# Offset from current parse position to examine.
#
# @return [Token, RuleSet, nil]
# Following symbol for the Item.
def following_symbol(offset = 0)
# Next symbol for the Item.
def next_symbol(offset = 0)
@rule.components[@position + offset]
end
@ -108,25 +108,25 @@ class Propane
end
end
# Get whether this Item is followed by the provided symbol.
# Get whether this Item's next symbol is the given symbol.
#
# @param symbol [Token, RuleSet]
# Symbol to query.
#
# @return [Boolean]
# Whether this Item is followed by the provided symbol.
def followed_by?(symbol)
following_symbol == symbol
# Whether this Item's next symbol is the given symbol.
def next_symbol?(symbol)
next_symbol == symbol
end
# Get the following item for this Item.
# Get the next item for this Item.
#
# That is, the Item formed by moving the parse position marker one place
# forward from its position in this Item.
#
# @return [Item]
# The following item for this Item.
def following_item
# The next item for this Item.
def next_item
Item.new(@rule, @position + 1)
end

72
lib/propane/parser/item_set.rb
View File

@ -2,7 +2,7 @@ class Propane
class Parser
# Represent a parser "item set", which is a set of possible items that the
# parser could currently be parsing.
# parser could currently be parsing. This is equivalent to a parser state.
class ItemSet
# @return [Set<Item>]
@ -14,15 +14,24 @@ class Propane
attr_accessor :id
# @return [Hash]
# Maps a following symbol to its ItemSet.
attr_reader :following_item_set
# Maps a next symbol to its ItemSet.
attr_reader :next_item_set
# @return [Set<ItemSet>]
# ItemSets leading to this item set.
attr_reader :in_sets
# @return [nil, Rule, Hash]
# Reduce actions, mapping lookahead tokens to rules.
# @return [nil, Rule]
# Rule to reduce if there is only one possibility.
attr_accessor :reduce_rule
# @return [Set<Rule>]
# Set of rules that could be reduced in this parser state.
attr_accessor :reduce_rules
# @return [nil, Hash]
# Reduce actions, mapping lookahead tokens to rules, if there is
# more than one rule that could be reduced.
attr_accessor :reduce_actions
# Build an ItemSet.
@ -31,28 +40,28 @@ class Propane
# Items in this ItemSet.
def initialize(items)
@items = Set.new(items)
@following_item_set = {}
@next_item_set = {}
@in_sets = Set.new
close!
end
# Get the set of following symbols for all Items in this ItemSet.
# Get the set of next symbols for all Items in this ItemSet.
#
# @return [Set<Token, RuleSet>]
# Set of following symbols for all Items in this ItemSet.
def following_symbols
Set.new(@items.map(&:following_symbol).compact)
# Set of next symbols for all Items in this ItemSet.
def next_symbols
@_next_symbols ||= Set.new(@items.map(&:next_symbol).compact)
end
# Build a following ItemSet for the given following symbol.
# Build a next ItemSet for the given next symbol.
#
# @param symbol [Token, RuleSet]
# Following symbol to build the following ItemSet for.
# Next symbol to build the next ItemSet for.
#
# @return [ItemSet]
# Following ItemSet for the given following symbol.
def build_following_item_set(symbol)
ItemSet.new(items_followed_by(symbol).map(&:following_item))
# Next ItemSet for the given next symbol.
def build_next_item_set(symbol)
ItemSet.new(items_with_next(symbol).map(&:next_item))
end
# Hash function.
@ -87,14 +96,27 @@ class Propane
# Set of ItemSets that lead to this ItemSet.
#
# This set includes this ItemSet.
#
# @return [Set<ItemSet>]
# Set of all ItemSets that lead up to this ItemSet.
def leading_item_sets
@in_sets.reduce(Set[self]) do |result, item_set|
result + item_set.leading_item_sets
end
@_leading_item_sets ||=
begin
result = Set.new
eval_sets = Set[self]
evaled = Set.new
while eval_sets.size > 0
eval_set = eval_sets.first
eval_sets.delete(eval_set)
evaled << eval_set
eval_set.in_sets.each do |in_set|
result << in_set
unless evaled.include?(in_set)
eval_sets << in_set
end
end
end
result
end
end
# Represent the ItemSet as a String.
@ -127,16 +149,16 @@ class Propane
end
end
# Get the Items followed by the given following symbol.
# Get the Items with the given next symbol.
#
# @param symbol [Token, RuleSet]
# Following symbol.
# Next symbol.
#
# @return [Array<Item>]
# Items followed by the given following symbol.
def items_followed_by(symbol)
# Items with the given next symbol.
def items_with_next(symbol)
@items.select do |item|
item.followed_by?(symbol)
item.next_symbol?(symbol)
end
end

14
lib/propane/regex.rb
View File

@ -134,8 +134,18 @@ class Propane
else
c = @pattern.slice!(0)
case c
when "a"
CharacterRangeUnit.new("\a", "\a")
when "b"
CharacterRangeUnit.new("\b", "\b")
when "d"
CharacterRangeUnit.new("0", "9")
when "f"
CharacterRangeUnit.new("\f", "\f")
when "n"
CharacterRangeUnit.new("\n", "\n")
when "r"
CharacterRangeUnit.new("\r", "\r")
when "s"
ccu = CharacterClassUnit.new
ccu << CharacterRangeUnit.new(" ")
@ -145,6 +155,10 @@ class Propane
ccu << CharacterRangeUnit.new("\f")
ccu << CharacterRangeUnit.new("\v")
ccu
when "t"
CharacterRangeUnit.new("\t", "\t")
when "v"
CharacterRangeUnit.new("\v", "\v")
else
CharacterRangeUnit.new(c)
end

43
lib/propane/rule.rb
View File

@ -6,6 +6,10 @@ class Propane
# Rule components.
attr_reader :components
# @return [Hash]
# Field aliases.
attr_reader :aliases
# @return [String]
# User code associated with the rule.
attr_reader :code
@ -30,6 +34,11 @@ class Propane
# The RuleSet that this Rule is a part of.
attr_accessor :rule_set
# @return [Array<Integer>]
# Map this rule's components to their positions in the parent RuleSet's
# node field pointer array. This is used for AST construction.
attr_accessor :rule_set_node_field_index_map
# Construct a Rule.
#
# @param name [String]
@ -44,7 +53,20 @@ class Propane
# Line number where the rule was defined in the input grammar.
def initialize(name, components, code, ptypename, line_number)
@name = name
@components = components
@aliases = {}
@components = components.each_with_index.map do |component, i|
if component =~ /(\S+):(\S+)/
c, aliasname = $1, $2
if @aliases[aliasname]
raise Error.new("Error: duplicate field alias `#{aliasname}` for rule #{name} defined on line #{line_number}")
end
@aliases[aliasname] = i
c
else
component
end
end
@rule_set_node_field_index_map = components.map {0}
@code = code
@ptypename = ptypename
@line_number = line_number
@ -60,6 +82,14 @@ class Propane
@components.empty?
end
# Return whether this is an optional Rule.
#
# @return [Boolean]
# Whether this is an optional Rule.
def optional?
@name.end_with?("?")
end
# Represent the Rule as a String.
#
# @return [String]
@ -68,6 +98,17 @@ class Propane
"#{@name} -> #{@components.map(&:name).join(" ")}"
end
# Check whether the rule set node field index map is just a 1:1 mapping.
#
# @return [Boolean]
# Boolean indicating whether the rule set node field index map is just a
# 1:1 mapping.
def flat_rule_set_node_field_index_map?
@rule_set_node_field_index_map.each_with_index.all? do |v, i|
v == i
end
end
end
end

89
lib/propane/rule_set.rb
View File

@ -1,7 +1,12 @@
class Propane
# A RuleSet collects all grammar rules of the same name.
class RuleSet
# @return [Array<Hash>]
# AST fields.
attr_reader :ast_fields
# @return [Integer]
# ID of the RuleSet.
attr_reader :id
@ -51,6 +56,24 @@ class Propane
@could_be_empty
end
# Return whether this is an optional RuleSet.
#
# @return [Boolean]
# Whether this is an optional RuleSet.
def optional?
@name.end_with?("?")
end
# For optional rule sets, return the underlying component that is optional.
def option_target
@rules.each do |rule|
if rule.components.size > 0
return rule.components[0]
end
end
raise "Optional rule target not found"
end
# Build the start token set for the RuleSet.
#
# @return [Set<Token>]
@ -75,6 +98,72 @@ class Propane
@_start_token_set
end
# Finalize a RuleSet after adding all Rules to it.
def finalize(grammar)
if grammar.ast
build_ast_fields(grammar)
end
end
private
# Build the set of AST fields for this RuleSet.
#
# This is an Array of Hashes. Each entry in the Array corresponds to a
# field location in the AST node. The entry is a Hash. It could have one or
# two keys. It will always have the field name with a positional suffix as
# a key. It may also have the field name without the positional suffix if
# that field only exists in one position across all Rules in the RuleSet.
#
# @return [void]
def build_ast_fields(grammar)
field_ast_node_indexes = {}
field_indexes_across_all_rules = {}
@ast_fields = []
@rules.each do |rule|
rule.components.each_with_index do |component, i|
if component.is_a?(RuleSet) && component.optional?
component = component.option_target
end
if component.is_a?(Token)
node_name = "Token"
else
node_name = component.name
end
struct_name = "#{grammar.ast_prefix}#{node_name}#{grammar.ast_suffix}"
field_name = "p#{node_name}#{i + 1}"
unless field_ast_node_indexes[field_name]
field_ast_node_indexes[field_name] = @ast_fields.size
@ast_fields << {field_name => struct_name}
end
field_indexes_across_all_rules[node_name] ||= Set.new
field_indexes_across_all_rules[node_name] << field_ast_node_indexes[field_name]
rule.rule_set_node_field_index_map[i] = field_ast_node_indexes[field_name]
end
end
field_indexes_across_all_rules.each do |node_name, indexes_across_all_rules|
if indexes_across_all_rules.size == 1
# If this field was only seen in one position across all rules,
# then add an alias to the positional field name that does not
# include the position.
@ast_fields[indexes_across_all_rules.first]["p#{node_name}"] =
"#{grammar.ast_prefix}#{node_name}#{grammar.ast_suffix}"
end
end
# Now merge in the field aliases as given by the user in the
# grammar.
field_aliases = {}
@rules.each do |rule|
rule.aliases.each do |alias_name, index|
if field_aliases[alias_name] && field_aliases[alias_name] != index
raise Error.new("Error: conflicting AST node field positions for alias `#{alias_name}`")
end
field_aliases[alias_name] = index
@ast_fields[index][alias_name] = @ast_fields[index].first[1]
end
end
end
end
end

2
lib/propane/version.rb
View File

@ -1,3 +1,3 @@
class Propane
VERSION = "1.1.0"
VERSION = "1.5.1"
end

759
spec/propane_spec.rb
View File

@ -13,7 +13,7 @@ describe Propane do
File.write("spec/run/testparser#{options[:name]}.propane", grammar)
end
def build_parser(options = {})
def run_propane(options = {})
@statics[:build_test_id] ||= 0
@statics[:build_test_id] += 1
if ENV["dist_specs"]
@ -49,7 +49,12 @@ ENV["TERM"] = nil
EOF
end
end
command += %W[spec/run/testparser#{options[:name]}.propane spec/run/testparser#{options[:name]}.#{options[:language]} --log spec/run/testparser#{options[:name]}.log]
if options[:args]
command += options[:args]
else
command += %W[spec/run/testparser#{options[:name]}.propane spec/run/testparser#{options[:name]}.#{options[:language]} --log spec/run/testparser#{options[:name]}.log]
end
command += (options[:extra_args] || [])
if (options[:capture])
stdout, stderr, status = Open3.capture3(*command)
Results.new(stdout, stderr, status)
@ -74,7 +79,7 @@ EOF
expect(result).to be_truthy
end
def run
def run_test
stdout, stderr, status = Open3.capture3("spec/run/testparser")
File.binwrite("spec/run/.stderr", stderr)
File.binwrite("spec/run/.stdout", stdout)
@ -112,6 +117,138 @@ EOF
FileUtils.mkdir_p("spec/run")
end
it "reports its version" do
results = run_propane(args: %w[--version], capture: true)
expect(results.stdout).to match /propane version \d+\.\d+/
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
it "shows help usage" do
results = run_propane(args: %w[-h], capture: true)
expect(results.stdout).to match /Usage/i
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
it "errors with unknown option" do
results = run_propane(args: %w[-i], capture: true)
expect(results.stderr).to match /Error: unknown option -i/
expect(results.status).to_not eq 0
end
it "errors when input and output files are not specified" do
results = run_propane(args: [], capture: true)
expect(results.stderr).to match /Error: specify input and output files/
expect(results.status).to_not eq 0
end
it "errors when input file is not readable" do
results = run_propane(args: %w[nope.txt out.d], capture: true)
expect(results.stderr).to match /Error: cannot read nope.txt/
expect(results.status).to_not eq 0
end
it "raises an error when a pattern referenced ptype has not been defined" do
write_grammar <<EOF
ptype yes = int;
/foo/ (yes) <<
>>
/bar/ (no) <<
>>
EOF
results = run_propane(capture: true)
expect(results.stderr).to match /Error: Line 4: ptype no not declared\. Declare with `ptype` statement\./
expect(results.status).to_not eq 0
end
it "raises an error when a token referenced ptype has not been defined" do
write_grammar <<EOF
ptype yes = int;
token foo (yes);
token bar (no);
EOF
results = run_propane(capture: true)
expect(results.stderr).to match /Error: Line 3: ptype no not declared\. Declare with `ptype` statement\./
expect(results.status).to_not eq 0
end
it "raises an error when a rule referenced ptype has not been defined" do
write_grammar <<EOF
ptype yes = int;
token xyz;
foo (yes) -> bar;
bar (no) -> xyz;
EOF
results = run_propane(capture: true)
expect(results.stderr).to match /Error: Line 4: ptype no not declared\. Declare with `ptype` statement\./
expect(results.status).to_not eq 0
end
it "warns on shift/reduce conflicts" do
write_grammar <<EOF
token a;
token b;
Start -> As? b?;
As -> a As2?;
As2 -> b a As2?;
EOF
results = run_propane(capture: true)
expect(results.stderr).to eq ""
expect(results.status).to eq 0
expect(File.binread("spec/run/testparser.log")).to match %r{Shift/Reduce conflict \(state \d+\) between token b and rule As2\? \(defined on line 4\)}
end
it "errors on shift/reduce conflicts with -w" do
write_grammar <<EOF
token a;
token b;
Start -> As? b?;
As -> a As2?;
As2 -> b a As2?;
EOF
results = run_propane(extra_args: %w[-w], capture: true)
expect(results.stderr).to match %r{Shift/Reduce conflict \(state \d+\) between token b and rule As2\? \(defined on line 4\)}m
expect(results.status).to_not eq 0
expect(File.binread("spec/run/testparser.log")).to match %r{Shift/Reduce conflict \(state \d+\) between token b and rule As2\? \(defined on line 4\)}
end
it "errors on duplicate field aliases in a rule" do
write_grammar <<EOF
token a;
token b;
Start -> a:foo b:foo;
EOF
results = run_propane(extra_args: %w[-w], capture: true)
expect(results.stderr).to match %r{Error: duplicate field alias `foo` for rule Start defined on line 3}
expect(results.status).to_not eq 0
end
it "errors when an alias is in different positions for different rules in a rule set when AST mode is enabled" do
write_grammar <<EOF
ast;
token a;
token b;
Start -> a:foo b;
Start -> b b:foo;
EOF
results = run_propane(extra_args: %w[-w], capture: true)
expect(results.stderr).to match %r{Error: conflicting AST node field positions for alias `foo`}
expect(results.status).to_not eq 0
end
it "does not error when an alias is in different positions for different rules in a rule set when AST mode is not enabled" do
write_grammar <<EOF
token a;
token b;
Start -> a:foo b;
Start -> b b:foo;
EOF
results = run_propane(extra_args: %w[-w], capture: true)
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
%w[d c].each do |language|
context "#{language.upcase} language" do
@ -123,14 +260,12 @@ token plus /\\+/;
token times /\\*/;
drop /\\s+/;
Start -> Foo;
Foo -> int <<
>>
Foo -> plus <<
>>
Foo -> int <<>>
Foo -> plus <<>>
EOF
build_parser(language: language)
run_propane(language: language)
compile("spec/test_lexer.#{language}", language: language)
results = run
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
@ -149,9 +284,7 @@ token int /\\d+/ <<
}
$$ = v;
>>
Start -> int <<
$$ = $1;
>>
Start -> int << $$ = $1; >>
EOF
when "d"
write_grammar <<EOF
@ -165,14 +298,12 @@ token int /\\d+/ <<
}
$$ = v;
>>
Start -> int <<
$$ = $1;
>>
Start -> int << $$ = $1; >>
EOF
end
build_parser(language: language)
run_propane(language: language)
compile("spec/test_lexer_unknown_character.#{language}", language: language)
results = run
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
@ -190,7 +321,7 @@ E -> B;
B -> zero;
B -> one;
EOF
build_parser(language: language)
run_propane(language: language)
end
it "generates a parser that does basic math - user guide example" do
@ -219,33 +350,15 @@ token lparen /\\(/;
token rparen /\\)/;
drop /\\s+/;
Start -> E1 <<
$$ = $1;
>>
E1 -> E2 <<
$$ = $1;
>>
E1 -> E1 plus E2 <<
$$ = $1 + $3;
>>
E2 -> E3 <<
$$ = $1;
>>
E2 -> E2 times E3 <<
$$ = $1 * $3;
>>
E3 -> E4 <<
$$ = $1;
>>
E3 -> E3 power E4 <<
$$ = (size_t)pow($1, $3);
>>
E4 -> integer <<
$$ = $1;
>>
E4 -> lparen E1 rparen <<
$$ = $2;
>>
Start -> E1 << $$ = $1; >>
E1 -> E2 << $$ = $1; >>
E1 -> E1 plus E2 << $$ = $1 + $3; >>
E2 -> E3 << $$ = $1; >>
E2 -> E2 times E3 << $$ = $1 * $3; >>
E3 -> E4 << $$ = $1; >>
E3 -> E3 power E4 << $$ = (size_t)pow($1, $3); >>
E4 -> integer << $$ = $1; >>
E4 -> lparen E1 rparen << $$ = $2; >>
EOF
when "d"
write_grammar <<EOF
@ -271,38 +384,20 @@ token lparen /\\(/;
token rparen /\\)/;
drop /\\s+/;
Start -> E1 <<
$$ = $1;
>>
E1 -> E2 <<
$$ = $1;
>>
E1 -> E1 plus E2 <<
$$ = $1 + $3;
>>
E2 -> E3 <<
$$ = $1;
>>
E2 -> E2 times E3 <<
$$ = $1 * $3;
>>
E3 -> E4 <<
$$ = $1;
>>
E3 -> E3 power E4 <<
$$ = pow($1, $3);
>>
E4 -> integer <<
$$ = $1;
>>
E4 -> lparen E1 rparen <<
$$ = $2;
>>
Start -> E1 << $$ = $1; >>
E1 -> E2 << $$ = $1; >>
E1 -> E1 plus E2 << $$ = $1 + $3; >>
E2 -> E3 << $$ = $1; >>
E2 -> E2 times E3 << $$ = $1 * $3; >>
E3 -> E4 << $$ = $1; >>
E3 -> E3 power E4 << $$ = pow($1, $3); >>
E4 -> integer << $$ = $1; >>
E4 -> lparen E1 rparen << $$ = $2; >>
EOF
end
build_parser(language: language)
run_propane(language: language)
compile("spec/test_basic_math_grammar.#{language}", language: language)
results = run
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
@ -314,7 +409,7 @@ Start -> E;
E -> one E;
E -> one;
EOF
build_parser(language: language)
run_propane(language: language)
end
it "distinguishes between multiple identical rules with lookahead symbol" do
@ -326,9 +421,9 @@ Start -> R2 b;
R1 -> a b;
R2 -> a b;
EOF
build_parser(language: language)
run_propane(language: language)
compile("spec/test_parser_identical_rules_lookahead.#{language}", language: language)
results = run
results = run_test
expect(results.status).to eq 0
end
@ -341,9 +436,9 @@ Start -> a R1;
Start -> b R1;
R1 -> b;
EOF
build_parser(language: language)
run_propane(language: language)
compile("spec/test_parser_rule_from_multiple_states.#{language}", language: language)
results = run
results = run_test
expect(results.status).to eq 0
end
@ -376,9 +471,9 @@ Abcs -> ;
Abcs -> abc Abcs;
EOF
end
build_parser(language: language)
run_propane(language: language)
compile("spec/test_user_code.#{language}", language: language)
results = run
results = run_test
expect(results.status).to eq 0
verify_lines(results.stdout, [
"abc!",
@ -408,15 +503,13 @@ EOF
import std.stdio;
>>
token abc;
/def/ <<
writeln("def!");
>>
/def/ << writeln("def!"); >>
Start -> abc;
EOF
end
build_parser(language: language)
run_propane(language: language)
compile("spec/test_pattern.#{language}", language: language)
results = run
results = run_test
expect(results.status).to eq 0
verify_lines(results.stdout, [
"def!",
@ -435,9 +528,7 @@ EOF
#include <stdio.h>
>>
token abc;
/def/ <<
printf("def!\\n");
>>
/def/ << printf("def!\\n"); >>
/ghi/ <<
printf("ghi!\\n");
return $token(abc);
@ -450,9 +541,7 @@ EOF
import std.stdio;
>>
token abc;
/def/ <<
writeln("def!");
>>
/def/ << writeln("def!"); >>
/ghi/ <<
writeln("ghi!");
return $token(abc);
@ -460,9 +549,9 @@ token abc;
Start -> abc;
EOF
end
build_parser(language: language)
run_propane(language: language)
compile("spec/test_return_token_from_pattern.#{language}", language: language)
results = run
results = run_test
expect(results.status).to eq 0
verify_lines(results.stdout, [
"def!",
@ -518,9 +607,9 @@ string: /"/ <<
Start -> abc string def;
EOF
end
build_parser(language: language)
run_propane(language: language)
compile("spec/test_lexer_modes.#{language}", language: language)
results = run
results = run_test
expect(results.status).to eq 0
verify_lines(results.stdout, [
"begin string mode",
@ -541,15 +630,9 @@ EOF
>>
token a;
token b;
Start -> A B <<
printf("Start!\\n");
>>
A -> a <<
printf("A!\\n");
>>
B -> b <<
printf("B!\\n");
>>
Start -> A B << printf("Start!\\n"); >>
A -> a << printf("A!\\n"); >>
B -> b << printf("B!\\n"); >>
EOF
when "d"
write_grammar <<EOF
@ -558,20 +641,14 @@ import std.stdio;
>>
token a;
token b;
Start -> A B <<
writeln("Start!");
>>
A -> a <<
writeln("A!");
>>
B -> b <<
writeln("B!");
>>
Start -> A B << writeln("Start!"); >>
A -> a << writeln("A!"); >>
B -> b << writeln("B!"); >>
EOF
end
build_parser(language: language)
run_propane(language: language)
compile("spec/test_parser_rule_user_code.#{language}", language: language)
results = run
results = run_test
expect(results.status).to eq 0
verify_lines(results.stdout, [
"A!",
@ -584,19 +661,13 @@ EOF
write_grammar <<EOF
ptype #{language == "c" ? "uint32_t" : "uint"};
token a;
Start -> As <<
$$ = $1;
>>
As -> <<
$$ = 0u;
>>
As -> As a <<
$$ = $1 + 1u;
>>
Start -> As << $$ = $1; >>
As -> << $$ = 0u; >>
As -> As a << $$ = $1 + 1u; >>
EOF
build_parser(language: language)
run_propane(language: language)
compile("spec/test_parsing_lists.#{language}", language: language)
results = run
results = run_test
expect(results.status).to eq 0
expect(results.stderr).to eq ""
end
@ -615,9 +686,9 @@ Start -> b E d;
E -> e;
F -> e;
EOF
results = build_parser(capture: true, language: language)
results = run_propane(capture: true, language: language)
expect(results.status).to_not eq 0
expect(results.stderr).to match %r{reduce/reduce conflict.*\(E\).*\(F\)}
expect(results.stderr).to match %r{Error: reduce/reduce conflict \(state \d+\) between rule E#\d+ \(defined on line 10\) and rule F#\d+ \(defined on line 11\)}
end
it "provides matched text to user code blocks" do
@ -647,9 +718,9 @@ token id /[a-zA-Z_][a-zA-Z0-9_]*/ <<
Start -> id;
EOF
end
build_parser(language: language)
run_propane(language: language)
compile("spec/test_lexer_match_text.#{language}", language: language)
results = run
results = run_test
expect(results.status).to eq 0
verify_lines(results.stdout, [
"Matched token is identifier_123",
@ -680,9 +751,9 @@ Start -> word <<
>>
EOF
end
build_parser(language: language)
run_propane(language: language)
compile("spec/test_lexer_result_value.#{language}", language: language)
results = run
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
@ -695,16 +766,16 @@ drop /\\s+/;
Start -> a num Start;
Start -> a num;
EOF
build_parser(language: language)
run_propane(language: language)
compile("spec/test_error_positions.#{language}", language: language)
results = run
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
it "allows creating a JSON parser" do
write_grammar(File.read("spec/json_parser.#{language}.propane"))
build_parser(language: language)
run_propane(language: language)
compile(["spec/test_parsing_json.#{language}", "spec/json_types.#{language}"], language: language)
end
@ -716,16 +787,35 @@ token num /\\d+/;
drop /\\s+/;
Start -> a num;
EOF
build_parser(name: "myp1", language: language)
run_propane(name: "myp1", language: language)
write_grammar(<<EOF, name: "myp2")
prefix myp2_;
token b;
token c;
Start -> b c b;
EOF
build_parser(name: "myp2", language: language)
run_propane(name: "myp2", language: language)
compile("spec/test_multiple_parsers.#{language}", parsers: %w[myp1 myp2], language: language)
results = run
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
it "allows the user to terminate the lexer" do
write_grammar <<EOF
token a;
token b <<
$terminate(8675309);
>>
token c;
Start -> Any;
Any -> a;
Any -> b;
Any -> c;
EOF
run_propane(language: language)
compile("spec/test_user_terminate_lexer.#{language}", language: language)
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
@ -737,18 +827,399 @@ token b;
token c;
Start -> Any;
Any -> a Any;
Any -> b Any <<
$terminate(4200);
>>
Any -> b Any << $terminate(4200); >>
Any -> c Any;
Any -> ;
EOF
build_parser(language: language)
run_propane(language: language)
compile("spec/test_user_terminate.#{language}", language: language)
results = run
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
it "matches backslash escape sequences" do
case language
when "c"
write_grammar <<EOF
<<
#include <stdio.h>
>>
tokenid t;
/\\a/ << printf("A\\n"); >>
/\\b/ << printf("B\\n"); >>
/\\t/ << printf("T\\n"); >>
/\\n/ << printf("N\\n"); >>
/\\v/ << printf("V\\n"); >>
/\\f/ << printf("F\\n"); >>
/\\r/ << printf("R\\n"); >>
/t/ << return $token(t); >>
Start -> t;
EOF
when "d"
write_grammar <<EOF
<<
import std.stdio;
>>
tokenid t;
/\\a/ << writeln("A"); >>
/\\b/ << writeln("B"); >>
/\\t/ << writeln("T"); >>
/\\n/ << writeln("N"); >>
/\\v/ << writeln("V"); >>
/\\f/ << writeln("F"); >>
/\\r/ << writeln("R"); >>
/t/ <<
return $token(t);
>>
Start -> t;
EOF
end
run_propane(language: language)
compile("spec/test_match_backslashes.#{language}", language: language)
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
verify_lines(results.stdout, [
"A",
"B",
"T",
"N",
"V",
"F",
"R",
])
end
it "handles when an item set leads to itself" do
write_grammar <<EOF
token one;
token two;
Start -> Opt one Start;
Start -> ;
Opt -> two;
Opt -> ;
EOF
run_propane(language: language)
end
it "generates an AST" do
write_grammar <<EOF
ast;
ptype int;
token a << $$ = 11; >>
token b << $$ = 22; >>
token one /1/;
token two /2/;
token comma /,/ <<
$$ = 42;
>>
token lparen /\\(/;
token rparen /\\)/;
drop /\\s+/;
Start -> Items;
Items -> Item ItemsMore;
Items -> ;
ItemsMore -> comma Item ItemsMore;
ItemsMore -> ;
Item -> a;
Item -> b;
Item -> lparen Item rparen;
Item -> Dual;
Dual -> One Two;
Dual -> Two One;
One -> one;
Two -> two;
EOF
run_propane(language: language)
compile("spec/test_ast.#{language}", language: language)
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
it "supports AST node prefix and suffix" do
write_grammar <<EOF
ast;
ast_prefix P ;
ast_suffix S;
ptype int;
token a << $$ = 11; >>
token b << $$ = 22; >>
token one /1/;
token two /2/;
token comma /,/ <<
$$ = 42;
>>
token lparen /\\(/;
token rparen /\\)/;
drop /\\s+/;
Start -> Items;
Items -> Item ItemsMore;
Items -> ;
ItemsMore -> comma Item ItemsMore;
ItemsMore -> ;
Item -> a;
Item -> b;
Item -> lparen Item rparen;
Item -> Dual;
Dual -> One Two;
Dual -> Two One;
One -> one;
Two -> two;
EOF
run_propane(language: language)
compile("spec/test_ast_ps.#{language}", language: language)
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
it "allows specifying a different start rule" do
write_grammar <<EOF
token hi;
start Top;
Top -> hi;
EOF
run_propane(language: language)
compile("spec/test_start_rule.#{language}", language: language)
end
it "allows specifying a different start rule with AST generation" do
write_grammar <<EOF
ast;
token hi;
start Top;
Top -> hi;
EOF
run_propane(language: language)
compile("spec/test_start_rule_ast.#{language}", language: language)
end
it "allows marking a rule component as optional" do
if language == "d"
write_grammar <<EOF
<<
import std.stdio;
>>
ptype int;
ptype float = float;
ptype string = string;
token a (float) << $$ = 1.5; >>
token b << $$ = 2; >>
token c << $$ = 3; >>
token d << $$ = 4; >>
Start -> a? b R? <<
writeln("a: ", $1);
writeln("b: ", $2);
writeln("R: ", $3);
>>
R -> c d << $$ = "cd"; >>
R (string) -> d c << $$ = "dc"; >>
EOF
else
write_grammar <<EOF
<<
#include <stdio.h>
>>
ptype int;
ptype float = float;
ptype string = char *;
token a (float) << $$ = 1.5; >>
token b << $$ = 2; >>
token c << $$ = 3; >>
token d << $$ = 4; >>
Start -> a? b R? <<
printf("a: %.1f\\n", $1);
printf("b: %d\\n", $2);
printf("R: %s\\n", $3 == NULL ? "" : $3);
>>
R -> c d << $$ = "cd"; >>
R (string) -> d c << $$ = "dc"; >>
EOF
end
run_propane(language: language)
compile("spec/test_optional_rule_component.#{language}", language: language)
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
verify_lines(results.stdout, [
"a: 0#{language == "d" ? "" : ".0"}",
"b: 2",
"R: ",
"a: 1.5",
"b: 2",
"R: cd",
"a: 1.5",
"b: 2",
"R: dc",
])
end
it "allows marking a rule component as optional in AST generation mode" do
if language == "d"
write_grammar <<EOF
ast;
<<
import std.stdio;
>>
token a;
token b;
token c;
token d;
Start -> a? b R?;
R -> c d;
R -> d c;
EOF
else
write_grammar <<EOF
ast;
<<
#include <stdio.h>
>>
token a;
token b;
token c;
token d;
Start -> a? b R?;
R -> c d;
R -> d c;
EOF
end
run_propane(language: language)
compile("spec/test_optional_rule_component_ast.#{language}", language: language)
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
it "stores token and rule positions in AST nodes" do
write_grammar <<EOF
ast;
token a;
token bb;
token c /c(.|\\n)*c/;
drop /\\s+/;
Start -> T T T;
T -> a;
T -> bb;
T -> c;
EOF
run_propane(language: language)
compile("spec/test_ast_token_positions.#{language}", language: language)
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
it "stores invalid positions for empty rule matches" do
write_grammar <<EOF
ast;
token a;
token bb;
token c /c(.|\\n)*c/;
drop /\\s+/;
Start -> T Start;
Start -> ;
T -> a A;
A -> bb? c?;
EOF
run_propane(language: language)
compile("spec/test_ast_invalid_positions.#{language}", language: language)
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
it "allows specifying field aliases in AST mode" do
write_grammar <<EOF
ast;
token a;
token b;
token c;
drop /\\s+/;
Start -> T:first T:second T:third;
T -> a;
T -> b;
T -> c;
EOF
run_propane(language: language)
compile("spec/test_ast_field_aliases.#{language}", language: language)
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
end
it "allows specifying field aliases when AST mode is not enabled" do
if language == "d"
write_grammar <<EOF
<<
import std.stdio;
>>
ptype string;
token id /[a-zA-Z_][a-zA-Z0-9_]*/ <<
$$ = match;
>>
drop /\\s+/;
Start -> id:first id:second <<
writeln("first is ", ${first});
writeln("second is ", ${second});
>>
EOF
else
write_grammar <<EOF
<<
#include <stdio.h>
#include <string.h>
>>
ptype char const *;
token id /[a-zA-Z_][a-zA-Z0-9_]*/ <<
char * s = malloc(match_length + 1);
strncpy(s, (char const *)match, match_length);
s[match_length] = 0;
$$ = s;
>>
drop /\\s+/;
Start -> id:first id:second <<
printf("first is %s\\n", ${first});
printf("second is %s\\n", ${second});
>>
EOF
end
run_propane(language: language)
compile("spec/test_field_aliases.#{language}", language: language)
results = run_test
expect(results.stderr).to eq ""
expect(results.status).to eq 0
expect(results.stdout).to match /first is foo1.*second is bar2/m
end
end
end
end

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#include "testparser.h"
#include <assert.h>
#include <string.h>
#include "testutils.h"
int main()
{
char const * input = "a, ((b)), b";
p_context_t context;
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert_eq(P_SUCCESS, p_parse(&context));
Start * start = p_result(&context);
assert(start->pItems1 != NULL);
assert(start->pItems != NULL);
Items * items = start->pItems;
assert(items->pItem != NULL);
assert(items->pItem->pToken1 != NULL);
assert_eq(TOKEN_a, items->pItem->pToken1->token);
assert_eq(11, items->pItem->pToken1->pvalue);
assert(items->pItemsMore != NULL);
ItemsMore * itemsmore = items->pItemsMore;
assert(itemsmore->pItem != NULL);
assert(itemsmore->pItem->pItem != NULL);
assert(itemsmore->pItem->pItem->pItem != NULL);
assert(itemsmore->pItem->pItem->pItem->pToken1 != NULL);
assert_eq(TOKEN_b, itemsmore->pItem->pItem->pItem->pToken1->token);
assert_eq(22, itemsmore->pItem->pItem->pItem->pToken1->pvalue);
assert(itemsmore->pItemsMore != NULL);
itemsmore = itemsmore->pItemsMore;
assert(itemsmore->pItem != NULL);
assert(itemsmore->pItem->pToken1 != NULL);
assert_eq(TOKEN_b, itemsmore->pItem->pToken1->token);
assert_eq(22, itemsmore->pItem->pToken1->pvalue);
assert(itemsmore->pItemsMore == NULL);
input = "";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert_eq(P_SUCCESS, p_parse(&context));
start = p_result(&context);
assert(start->pItems == NULL);
input = "2 1";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert_eq(P_SUCCESS, p_parse(&context));
start = p_result(&context);
assert(start->pItems != NULL);
assert(start->pItems->pItem != NULL);
assert(start->pItems->pItem->pDual != NULL);
assert(start->pItems->pItem->pDual->pTwo1 != NULL);
assert(start->pItems->pItem->pDual->pOne2 != NULL);
assert(start->pItems->pItem->pDual->pTwo2 == NULL);
assert(start->pItems->pItem->pDual->pOne1 == NULL);
return 0;
}

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import testparser;
import std.stdio;
import testutils;
int main()
{
return 0;
}
unittest
{
string input = "a, ((b)), b";
p_context_t context;
p_context_init(&context, input);
assert_eq(P_SUCCESS, p_parse(&context));
Start * start = p_result(&context);
assert(start.pItems1 !is null);
assert(start.pItems !is null);
Items * items = start.pItems;
assert(items.pItem !is null);
assert(items.pItem.pToken1 !is null);
assert_eq(TOKEN_a, items.pItem.pToken1.token);
assert_eq(11, items.pItem.pToken1.pvalue);
assert(items.pItemsMore !is null);
ItemsMore * itemsmore = items.pItemsMore;
assert(itemsmore.pItem !is null);
assert(itemsmore.pItem.pItem !is null);
assert(itemsmore.pItem.pItem.pItem !is null);
assert(itemsmore.pItem.pItem.pItem.pToken1 !is null);
assert_eq(TOKEN_b, itemsmore.pItem.pItem.pItem.pToken1.token);
assert_eq(22, itemsmore.pItem.pItem.pItem.pToken1.pvalue);
assert(itemsmore.pItemsMore !is null);
itemsmore = itemsmore.pItemsMore;
assert(itemsmore.pItem !is null);
assert(itemsmore.pItem.pToken1 !is null);
assert_eq(TOKEN_b, itemsmore.pItem.pToken1.token);
assert_eq(22, itemsmore.pItem.pToken1.pvalue);
assert(itemsmore.pItemsMore is null);
input = "";
p_context_init(&context, input);
assert_eq(P_SUCCESS, p_parse(&context));
start = p_result(&context);
assert(start.pItems is null);
input = "2 1";
p_context_init(&context, input);
assert_eq(P_SUCCESS, p_parse(&context));
start = p_result(&context);
assert(start.pItems !is null);
assert(start.pItems.pItem !is null);
assert(start.pItems.pItem.pDual !is null);
assert(start.pItems.pItem.pDual.pTwo1 !is null);
assert(start.pItems.pItem.pDual.pOne2 !is null);
assert(start.pItems.pItem.pDual.pTwo2 is null);
assert(start.pItems.pItem.pDual.pOne1 is null);
}

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#include "testparser.h"
#include <assert.h>
#include <string.h>
#include "testutils.h"
int main()
{
char const * input = "\na\nb\nc";
p_context_t context;
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
Start * start = p_result(&context);
assert_eq(TOKEN_a, start->first->pToken->token);
assert_eq(TOKEN_b, start->second->pToken->token);
assert_eq(TOKEN_c, start->third->pToken->token);
return 0;
}

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import testparser;
import std.stdio;
import testutils;
int main()
{
return 0;
}
unittest
{
string input = "\na\nb\nc";
p_context_t context;
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
Start * start = p_result(&context);
assert_eq(TOKEN_a, start.first.pToken.token);
assert_eq(TOKEN_b, start.second.pToken.token);
assert_eq(TOKEN_c, start.third.pToken.token);
}

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#include "testparser.h"
#include <assert.h>
#include <string.h>
#include "testutils.h"
int main()
{
char const * input = "\na\n bb ccc";
p_context_t context;
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
Start * start = p_result(&context);
assert_eq(1, start->pT1->pToken->position.row);
assert_eq(0, start->pT1->pToken->position.col);
assert_eq(1, start->pT1->pToken->end_position.row);
assert_eq(0, start->pT1->pToken->end_position.col);
assert(p_position_valid(start->pT1->pA->position));
assert_eq(2, start->pT1->pA->position.row);
assert_eq(2, start->pT1->pA->position.col);
assert_eq(2, start->pT1->pA->end_position.row);
assert_eq(7, start->pT1->pA->end_position.col);
assert_eq(1, start->pT1->position.row);
assert_eq(0, start->pT1->position.col);
assert_eq(2, start->pT1->end_position.row);
assert_eq(7, start->pT1->end_position.col);
assert_eq(1, start->position.row);
assert_eq(0, start->position.col);
assert_eq(2, start->end_position.row);
assert_eq(7, start->end_position.col);
input = "a\nbb";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert_eq(0, start->pT1->pToken->position.row);
assert_eq(0, start->pT1->pToken->position.col);
assert_eq(0, start->pT1->pToken->end_position.row);
assert_eq(0, start->pT1->pToken->end_position.col);
assert(p_position_valid(start->pT1->pA->position));
assert_eq(1, start->pT1->pA->position.row);
assert_eq(0, start->pT1->pA->position.col);
assert_eq(1, start->pT1->pA->end_position.row);
assert_eq(1, start->pT1->pA->end_position.col);
assert_eq(0, start->pT1->position.row);
assert_eq(0, start->pT1->position.col);
assert_eq(1, start->pT1->end_position.row);
assert_eq(1, start->pT1->end_position.col);
assert_eq(0, start->position.row);
assert_eq(0, start->position.col);
assert_eq(1, start->end_position.row);
assert_eq(1, start->end_position.col);
input = "a\nc\nc";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert_eq(0, start->pT1->pToken->position.row);
assert_eq(0, start->pT1->pToken->position.col);
assert_eq(0, start->pT1->pToken->end_position.row);
assert_eq(0, start->pT1->pToken->end_position.col);
assert(p_position_valid(start->pT1->pA->position));
assert_eq(1, start->pT1->pA->position.row);
assert_eq(0, start->pT1->pA->position.col);
assert_eq(2, start->pT1->pA->end_position.row);
assert_eq(0, start->pT1->pA->end_position.col);
assert_eq(0, start->pT1->position.row);
assert_eq(0, start->pT1->position.col);
assert_eq(2, start->pT1->end_position.row);
assert_eq(0, start->pT1->end_position.col);
assert_eq(0, start->position.row);
assert_eq(0, start->position.col);
assert_eq(2, start->end_position.row);
assert_eq(0, start->end_position.col);
input = "a";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert_eq(0, start->pT1->pToken->position.row);
assert_eq(0, start->pT1->pToken->position.col);
assert_eq(0, start->pT1->pToken->end_position.row);
assert_eq(0, start->pT1->pToken->end_position.col);
assert(!p_position_valid(start->pT1->pA->position));
assert_eq(0, start->pT1->position.row);
assert_eq(0, start->pT1->position.col);
assert_eq(0, start->pT1->end_position.row);
assert_eq(0, start->pT1->end_position.col);
assert_eq(0, start->position.row);
assert_eq(0, start->position.col);
assert_eq(0, start->end_position.row);
assert_eq(0, start->end_position.col);
return 0;
}

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import testparser;
import std.stdio;
import testutils;
int main()
{
return 0;
}
unittest
{
string input = "\na\n bb ccc";
p_context_t context;
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
Start * start = p_result(&context);
assert_eq(1, start.pT1.pToken.position.row);
assert_eq(0, start.pT1.pToken.position.col);
assert_eq(1, start.pT1.pToken.end_position.row);
assert_eq(0, start.pT1.pToken.end_position.col);
assert(start.pT1.pA.position.valid);
assert_eq(2, start.pT1.pA.position.row);
assert_eq(2, start.pT1.pA.position.col);
assert_eq(2, start.pT1.pA.end_position.row);
assert_eq(7, start.pT1.pA.end_position.col);
assert_eq(1, start.pT1.position.row);
assert_eq(0, start.pT1.position.col);
assert_eq(2, start.pT1.end_position.row);
assert_eq(7, start.pT1.end_position.col);
assert_eq(1, start.position.row);
assert_eq(0, start.position.col);
assert_eq(2, start.end_position.row);
assert_eq(7, start.end_position.col);
input = "a\nbb";
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert_eq(0, start.pT1.pToken.position.row);
assert_eq(0, start.pT1.pToken.position.col);
assert_eq(0, start.pT1.pToken.end_position.row);
assert_eq(0, start.pT1.pToken.end_position.col);
assert(start.pT1.pA.position.valid);
assert_eq(1, start.pT1.pA.position.row);
assert_eq(0, start.pT1.pA.position.col);
assert_eq(1, start.pT1.pA.end_position.row);
assert_eq(1, start.pT1.pA.end_position.col);
assert_eq(0, start.pT1.position.row);
assert_eq(0, start.pT1.position.col);
assert_eq(1, start.pT1.end_position.row);
assert_eq(1, start.pT1.end_position.col);
assert_eq(0, start.position.row);
assert_eq(0, start.position.col);
assert_eq(1, start.end_position.row);
assert_eq(1, start.end_position.col);
input = "a\nc\nc";
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert_eq(0, start.pT1.pToken.position.row);
assert_eq(0, start.pT1.pToken.position.col);
assert_eq(0, start.pT1.pToken.end_position.row);
assert_eq(0, start.pT1.pToken.end_position.col);
assert(start.pT1.pA.position.valid);
assert_eq(1, start.pT1.pA.position.row);
assert_eq(0, start.pT1.pA.position.col);
assert_eq(2, start.pT1.pA.end_position.row);
assert_eq(0, start.pT1.pA.end_position.col);
assert_eq(0, start.pT1.position.row);
assert_eq(0, start.pT1.position.col);
assert_eq(2, start.pT1.end_position.row);
assert_eq(0, start.pT1.end_position.col);
assert_eq(0, start.position.row);
assert_eq(0, start.position.col);
assert_eq(2, start.end_position.row);
assert_eq(0, start.end_position.col);
input = "a";
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert_eq(0, start.pT1.pToken.position.row);
assert_eq(0, start.pT1.pToken.position.col);
assert_eq(0, start.pT1.pToken.end_position.row);
assert_eq(0, start.pT1.pToken.end_position.col);
assert(!start.pT1.pA.position.valid);
assert_eq(0, start.pT1.position.row);
assert_eq(0, start.pT1.position.col);
assert_eq(0, start.pT1.end_position.row);
assert_eq(0, start.pT1.end_position.col);
assert_eq(0, start.position.row);
assert_eq(0, start.position.col);
assert_eq(0, start.end_position.row);
assert_eq(0, start.end_position.col);
}

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#include "testparser.h"
#include <assert.h>
#include <string.h>
#include "testutils.h"
int main()
{
char const * input = "a, ((b)), b";
p_context_t context;
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert_eq(P_SUCCESS, p_parse(&context));
PStartS * start = p_result(&context);
assert(start->pItems1 != NULL);
assert(start->pItems != NULL);
PItemsS * items = start->pItems;
assert(items->pItem != NULL);
assert(items->pItem->pToken1 != NULL);
assert_eq(TOKEN_a, items->pItem->pToken1->token);
assert_eq(11, items->pItem->pToken1->pvalue);
assert(items->pItemsMore != NULL);
PItemsMoreS * itemsmore = items->pItemsMore;
assert(itemsmore->pItem != NULL);
assert(itemsmore->pItem->pItem != NULL);
assert(itemsmore->pItem->pItem->pItem != NULL);
assert(itemsmore->pItem->pItem->pItem->pToken1 != NULL);
assert_eq(TOKEN_b, itemsmore->pItem->pItem->pItem->pToken1->token);
assert_eq(22, itemsmore->pItem->pItem->pItem->pToken1->pvalue);
assert(itemsmore->pItemsMore != NULL);
itemsmore = itemsmore->pItemsMore;
assert(itemsmore->pItem != NULL);
assert(itemsmore->pItem->pToken1 != NULL);
assert_eq(TOKEN_b, itemsmore->pItem->pToken1->token);
assert_eq(22, itemsmore->pItem->pToken1->pvalue);
assert(itemsmore->pItemsMore == NULL);
input = "";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert_eq(P_SUCCESS, p_parse(&context));
start = p_result(&context);
assert(start->pItems == NULL);
input = "2 1";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert_eq(P_SUCCESS, p_parse(&context));
start = p_result(&context);
assert(start->pItems != NULL);
assert(start->pItems->pItem != NULL);
assert(start->pItems->pItem->pDual != NULL);
assert(start->pItems->pItem->pDual->pTwo1 != NULL);
assert(start->pItems->pItem->pDual->pOne2 != NULL);
assert(start->pItems->pItem->pDual->pTwo2 == NULL);
assert(start->pItems->pItem->pDual->pOne1 == NULL);
return 0;
}

57
spec/test_ast_ps.d Normal file
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@ -0,0 +1,57 @@
import testparser;
import std.stdio;
import testutils;
int main()
{
return 0;
}
unittest
{
string input = "a, ((b)), b";
p_context_t context;
p_context_init(&context, input);
assert_eq(P_SUCCESS, p_parse(&context));
PStartS * start = p_result(&context);
assert(start.pItems1 !is null);
assert(start.pItems !is null);
PItemsS * items = start.pItems;
assert(items.pItem !is null);
assert(items.pItem.pToken1 !is null);
assert_eq(TOKEN_a, items.pItem.pToken1.token);
assert_eq(11, items.pItem.pToken1.pvalue);
assert(items.pItemsMore !is null);
PItemsMoreS * itemsmore = items.pItemsMore;
assert(itemsmore.pItem !is null);
assert(itemsmore.pItem.pItem !is null);
assert(itemsmore.pItem.pItem.pItem !is null);
assert(itemsmore.pItem.pItem.pItem.pToken1 !is null);
assert_eq(TOKEN_b, itemsmore.pItem.pItem.pItem.pToken1.token);
assert_eq(22, itemsmore.pItem.pItem.pItem.pToken1.pvalue);
assert(itemsmore.pItemsMore !is null);
itemsmore = itemsmore.pItemsMore;
assert(itemsmore.pItem !is null);
assert(itemsmore.pItem.pToken1 !is null);
assert_eq(TOKEN_b, itemsmore.pItem.pToken1.token);
assert_eq(22, itemsmore.pItem.pToken1.pvalue);
assert(itemsmore.pItemsMore is null);
input = "";
p_context_init(&context, input);
assert_eq(P_SUCCESS, p_parse(&context));
start = p_result(&context);
assert(start.pItems is null);
input = "2 1";
p_context_init(&context, input);
assert_eq(P_SUCCESS, p_parse(&context));
start = p_result(&context);
assert(start.pItems !is null);
assert(start.pItems.pItem !is null);
assert(start.pItems.pItem.pDual !is null);
assert(start.pItems.pItem.pDual.pTwo1 !is null);
assert(start.pItems.pItem.pDual.pOne2 !is null);
assert(start.pItems.pItem.pDual.pTwo2 is null);
assert(start.pItems.pItem.pDual.pOne1 is null);
}

84
spec/test_ast_token_positions.c Normal file
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@ -0,0 +1,84 @@
#include "testparser.h"
#include <assert.h>
#include <string.h>
#include "testutils.h"
int main()
{
char const * input = "abbccc";
p_context_t context;
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
Start * start = p_result(&context);
assert_eq(0, start->pT1->pToken->position.row);
assert_eq(0, start->pT1->pToken->position.col);
assert_eq(0, start->pT1->pToken->end_position.row);
assert_eq(0, start->pT1->pToken->end_position.col);
assert_eq(0, start->pT1->position.row);
assert_eq(0, start->pT1->position.col);
assert_eq(0, start->pT1->end_position.row);
assert_eq(0, start->pT1->end_position.col);
assert_eq(0, start->pT2->pToken->position.row);
assert_eq(1, start->pT2->pToken->position.col);
assert_eq(0, start->pT2->pToken->end_position.row);
assert_eq(2, start->pT2->pToken->end_position.col);
assert_eq(0, start->pT2->position.row);
assert_eq(1, start->pT2->position.col);
assert_eq(0, start->pT2->end_position.row);
assert_eq(2, start->pT2->end_position.col);
assert_eq(0, start->pT3->pToken->position.row);
assert_eq(3, start->pT3->pToken->position.col);
assert_eq(0, start->pT3->pToken->end_position.row);
assert_eq(5, start->pT3->pToken->end_position.col);
assert_eq(0, start->pT3->position.row);
assert_eq(3, start->pT3->position.col);
assert_eq(0, start->pT3->end_position.row);
assert_eq(5, start->pT3->end_position.col);
assert_eq(0, start->position.row);
assert_eq(0, start->position.col);
assert_eq(0, start->end_position.row);
assert_eq(5, start->end_position.col);
input = "\n\n bb\nc\ncc\n\n a";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert_eq(2, start->pT1->pToken->position.row);
assert_eq(2, start->pT1->pToken->position.col);
assert_eq(2, start->pT1->pToken->end_position.row);
assert_eq(3, start->pT1->pToken->end_position.col);
assert_eq(2, start->pT1->position.row);
assert_eq(2, start->pT1->position.col);
assert_eq(2, start->pT1->end_position.row);
assert_eq(3, start->pT1->end_position.col);
assert_eq(3, start->pT2->pToken->position.row);
assert_eq(0, start->pT2->pToken->position.col);
assert_eq(4, start->pT2->pToken->end_position.row);
assert_eq(1, start->pT2->pToken->end_position.col);
assert_eq(3, start->pT2->position.row);
assert_eq(0, start->pT2->position.col);
assert_eq(4, start->pT2->end_position.row);
assert_eq(1, start->pT2->end_position.col);
assert_eq(6, start->pT3->pToken->position.row);
assert_eq(5, start->pT3->pToken->position.col);
assert_eq(6, start->pT3->pToken->end_position.row);
assert_eq(5, start->pT3->pToken->end_position.col);
assert_eq(6, start->pT3->position.row);
assert_eq(5, start->pT3->position.col);
assert_eq(6, start->pT3->end_position.row);
assert_eq(5, start->pT3->end_position.col);
assert_eq(2, start->position.row);
assert_eq(2, start->position.col);
assert_eq(6, start->end_position.row);
assert_eq(5, start->end_position.col);
return 0;
}

86
spec/test_ast_token_positions.d Normal file
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@ -0,0 +1,86 @@
import testparser;
import std.stdio;
import testutils;
int main()
{
return 0;
}
unittest
{
string input = "abbccc";
p_context_t context;
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
Start * start = p_result(&context);
assert_eq(0, start.pT1.pToken.position.row);
assert_eq(0, start.pT1.pToken.position.col);
assert_eq(0, start.pT1.pToken.end_position.row);
assert_eq(0, start.pT1.pToken.end_position.col);
assert_eq(0, start.pT1.position.row);
assert_eq(0, start.pT1.position.col);
assert_eq(0, start.pT1.end_position.row);
assert_eq(0, start.pT1.end_position.col);
assert_eq(0, start.pT2.pToken.position.row);
assert_eq(1, start.pT2.pToken.position.col);
assert_eq(0, start.pT2.pToken.end_position.row);
assert_eq(2, start.pT2.pToken.end_position.col);
assert_eq(0, start.pT2.position.row);
assert_eq(1, start.pT2.position.col);
assert_eq(0, start.pT2.end_position.row);
assert_eq(2, start.pT2.end_position.col);
assert_eq(0, start.pT3.pToken.position.row);
assert_eq(3, start.pT3.pToken.position.col);
assert_eq(0, start.pT3.pToken.end_position.row);
assert_eq(5, start.pT3.pToken.end_position.col);
assert_eq(0, start.pT3.position.row);
assert_eq(3, start.pT3.position.col);
assert_eq(0, start.pT3.end_position.row);
assert_eq(5, start.pT3.end_position.col);
assert_eq(0, start.position.row);
assert_eq(0, start.position.col);
assert_eq(0, start.end_position.row);
assert_eq(5, start.end_position.col);
input = "\n\n bb\nc\ncc\n\n a";
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert_eq(2, start.pT1.pToken.position.row);
assert_eq(2, start.pT1.pToken.position.col);
assert_eq(2, start.pT1.pToken.end_position.row);
assert_eq(3, start.pT1.pToken.end_position.col);
assert_eq(2, start.pT1.position.row);
assert_eq(2, start.pT1.position.col);
assert_eq(2, start.pT1.end_position.row);
assert_eq(3, start.pT1.end_position.col);
assert_eq(3, start.pT2.pToken.position.row);
assert_eq(0, start.pT2.pToken.position.col);
assert_eq(4, start.pT2.pToken.end_position.row);
assert_eq(1, start.pT2.pToken.end_position.col);
assert_eq(3, start.pT2.position.row);
assert_eq(0, start.pT2.position.col);
assert_eq(4, start.pT2.end_position.row);
assert_eq(1, start.pT2.end_position.col);
assert_eq(6, start.pT3.pToken.position.row);
assert_eq(5, start.pT3.pToken.position.col);
assert_eq(6, start.pT3.pToken.end_position.row);
assert_eq(5, start.pT3.pToken.end_position.col);
assert_eq(6, start.pT3.position.row);
assert_eq(5, start.pT3.position.col);
assert_eq(6, start.pT3.end_position.row);
assert_eq(5, start.pT3.end_position.col);
assert_eq(2, start.position.row);
assert_eq(2, start.position.col);
assert_eq(6, start.end_position.row);
assert_eq(5, start.end_position.col);
}

7
spec/test_error_positions.c
View File

@ -14,14 +14,14 @@ int main()
assert(p_parse(&context) == P_UNEXPECTED_TOKEN);
assert(p_position(&context).row == 2);
assert(p_position(&context).col == 3);
assert(context.token == TOKEN_a);
assert(p_token(&context) == TOKEN_a);
input = "12";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_UNEXPECTED_TOKEN);
assert(p_position(&context).row == 0);
assert(p_position(&context).col == 0);
assert(context.token == TOKEN_num);
assert(p_token(&context) == TOKEN_num);
input = "a 12\n\nab";
p_context_init(&context, (uint8_t const *)input, strlen(input));
@ -35,5 +35,8 @@ int main()
assert(p_position(&context).row == 5);
assert(p_position(&context).col == 4);
assert(strcmp(p_token_names[TOKEN_a], "a") == 0);
assert(strcmp(p_token_names[TOKEN_num], "num") == 0);
return 0;
}

7
spec/test_error_positions.d
View File

@ -17,13 +17,13 @@ unittest
p_context_init(&context, input);
assert(p_parse(&context) == P_UNEXPECTED_TOKEN);
assert(p_position(&context) == p_position_t(2, 3));
assert(context.token == TOKEN_a);
assert(p_token(&context) == TOKEN_a);
input = "12";
p_context_init(&context, input);
assert(p_parse(&context) == P_UNEXPECTED_TOKEN);
assert(p_position(&context) == p_position_t(0, 0));
assert(context.token == TOKEN_num);
assert(p_token(&context) == TOKEN_num);
input = "a 12\n\nab";
p_context_init(&context, input);
@ -34,4 +34,7 @@ unittest
p_context_init(&context, input);
assert(p_parse(&context) == P_DECODE_ERROR);
assert(p_position(&context) == p_position_t(5, 4));
assert(p_token_names[TOKEN_a] == "a");
assert(p_token_names[TOKEN_num] == "num");
}

13
spec/test_field_aliases.c Normal file
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@ -0,0 +1,13 @@
#include "testparser.h"
#include <assert.h>
#include <string.h>
#include "testutils.h"
int main()
{
char const * input = "foo1\nbar2";
p_context_t context;
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
return 0;
}

15
spec/test_field_aliases.d Normal file
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@ -0,0 +1,15 @@
import testparser;
import std.stdio;
int main()
{
return 0;
}
unittest
{
string input = "foo1\nbar2";
p_context_t context;
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
}

18
spec/test_lexer.c
View File

@ -43,41 +43,57 @@ int main()
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info.position.row == 0u);
assert(token_info.position.col == 0u);
assert(token_info.end_position.row == 0u);
assert(token_info.end_position.col == 0u);
assert(token_info.length == 1u);
assert(token_info.token == TOKEN_int);
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info.position.row == 0u);
assert(token_info.position.col == 2u);
assert(token_info.end_position.row == 0u);
assert(token_info.end_position.col == 2u);
assert(token_info.length == 1u);
assert(token_info.token == TOKEN_plus);
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info.position.row == 0u);
assert(token_info.position.col == 4u);
assert(token_info.end_position.row == 0u);
assert(token_info.end_position.col == 4u);
assert(token_info.length == 1u);
assert(token_info.token == TOKEN_int);
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info.position.row == 0u);
assert(token_info.position.col == 6u);
assert(token_info.end_position.row == 0u);
assert(token_info.end_position.col == 6u);
assert(token_info.length == 1u);
assert(token_info.token == TOKEN_times);
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info.position.row == 1u);
assert(token_info.position.col == 0u);
assert(token_info.end_position.row == 1u);
assert(token_info.end_position.col == 2u);
assert(token_info.length == 3u);
assert(token_info.token == TOKEN_int);
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info.position.row == 1u);
assert(token_info.position.col == 4u);
assert(token_info.end_position.row == 1u);
assert(token_info.end_position.col == 4u);
assert(token_info.length == 1u);
assert(token_info.token == TOKEN_plus);
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info.position.row == 1u);
assert(token_info.position.col == 6u);
assert(token_info.end_position.row == 1u);
assert(token_info.end_position.col == 8u);
assert(token_info.length == 3u);
assert(token_info.token == TOKEN_int);
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info.position.row == 1u);
assert(token_info.position.col == 9u);
assert(token_info.end_position.row == 1u);
assert(token_info.end_position.col == 9u);
assert(token_info.length == 0u);
assert(token_info.token == TOKEN___EOF);
@ -85,6 +101,8 @@ int main()
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info.position.row == 0u);
assert(token_info.position.col == 0u);
assert(token_info.end_position.row == 0u);
assert(token_info.end_position.col == 0u);
assert(token_info.length == 0u);
assert(token_info.token == TOKEN___EOF);

18
spec/test_lexer.d
View File

@ -47,23 +47,23 @@ unittest
p_context_t context;
p_context_init(&context, input);
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info == p_token_info_t(p_position_t(0, 0), 1, TOKEN_int));
assert(token_info == p_token_info_t(p_position_t(0, 0), p_position_t(0, 0), 1, TOKEN_int));
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info == p_token_info_t(p_position_t(0, 2), 1, TOKEN_plus));
assert(token_info == p_token_info_t(p_position_t(0, 2), p_position_t(0, 2), 1, TOKEN_plus));
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info == p_token_info_t(p_position_t(0, 4), 1, TOKEN_int));
assert(token_info == p_token_info_t(p_position_t(0, 4), p_position_t(0, 4), 1, TOKEN_int));
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info == p_token_info_t(p_position_t(0, 6), 1, TOKEN_times));
assert(token_info == p_token_info_t(p_position_t(0, 6), p_position_t(0, 6), 1, TOKEN_times));
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info == p_token_info_t(p_position_t(1, 0), 3, TOKEN_int));
assert(token_info == p_token_info_t(p_position_t(1, 0), p_position_t(1, 2), 3, TOKEN_int));
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info == p_token_info_t(p_position_t(1, 4), 1, TOKEN_plus));
assert(token_info == p_token_info_t(p_position_t(1, 4), p_position_t(1, 4), 1, TOKEN_plus));
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info == p_token_info_t(p_position_t(1, 6), 3, TOKEN_int));
assert(token_info == p_token_info_t(p_position_t(1, 6), p_position_t(1, 8), 3, TOKEN_int));
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info == p_token_info_t(p_position_t(1, 9), 0, TOKEN___EOF));
assert(token_info == p_token_info_t(p_position_t(1, 9), p_position_t(1, 9), 0, TOKEN___EOF));
p_context_init(&context, "");
assert(p_lex(&context, &token_info) == P_SUCCESS);
assert(token_info == p_token_info_t(p_position_t(0, 0), 0, TOKEN___EOF));
assert(token_info == p_token_info_t(p_position_t(0, 0), p_position_t(0, 0), 0, TOKEN___EOF));
}

13
spec/test_match_backslashes.c Normal file
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@ -0,0 +1,13 @@
#include "testparser.h"
#include <assert.h>
#include <string.h>
int main()
{
char const * input = "\a\b\t\n\v\f\rt";
p_context_t context;
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
return 0;
}

15
spec/test_match_backslashes.d Normal file
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@ -0,0 +1,15 @@
import testparser;
import std.stdio;
int main()
{
return 0;
}
unittest
{
string input = "\a\b\t\n\v\f\rt";
p_context_t context;
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
}

22
spec/test_optional_rule_component.c Normal file
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@ -0,0 +1,22 @@
#include "testparser.h"
#include <assert.h>
#include <string.h>
int main()
{
char const * input = "b";
p_context_t context;
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
input = "abcd";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
input = "abdc";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
return 0;
}

23
spec/test_optional_rule_component.d Normal file
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@ -0,0 +1,23 @@
import testparser;
import std.stdio;
int main()
{
return 0;
}
unittest
{
string input = "b";
p_context_t context;
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
input = "abcd";
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
input = "abdc";
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
}

42
spec/test_optional_rule_component_ast.c Normal file
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@ -0,0 +1,42 @@
#include "testparser.h"
#include <assert.h>
#include <string.h>
#include "testutils.h"
int main()
{
char const * input = "b";
p_context_t context;
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
Start * start = p_result(&context);
assert(start->pToken1 == NULL);
assert(start->pToken2 != NULL);
assert_eq(TOKEN_b, start->pToken2->token);
assert(start->pR3 == NULL);
assert(start->pR == NULL);
input = "abcd";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert(start->pToken1 != NULL);
assert_eq(TOKEN_a, start->pToken1->token);
assert(start->pToken2 != NULL);
assert(start->pR3 != NULL);
assert(start->pR != NULL);
assert(start->pR == start->pR3);
assert_eq(TOKEN_c, start->pR->pToken1->token);
input = "bdc";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert(start->pToken1 == NULL);
assert(start->pToken2 != NULL);
assert(start->pR != NULL);
assert_eq(TOKEN_d, start->pR->pToken1->token);
return 0;
}

43
spec/test_optional_rule_component_ast.d Normal file
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@ -0,0 +1,43 @@
import testparser;
import std.stdio;
import testutils;
int main()
{
return 0;
}
unittest
{
string input = "b";
p_context_t context;
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
Start * start = p_result(&context);
assert(start.pToken1 is null);
assert(start.pToken2 !is null);
assert_eq(TOKEN_b, start.pToken2.token);
assert(start.pR3 is null);
assert(start.pR is null);
input = "abcd";
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert(start.pToken1 != null);
assert_eq(TOKEN_a, start.pToken1.token);
assert(start.pToken2 != null);
assert(start.pR3 != null);
assert(start.pR != null);
assert(start.pR == start.pR3);
assert_eq(TOKEN_c, start.pR.pToken1.token);
input = "bdc";
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
start = p_result(&context);
assert(start.pToken1 is null);
assert(start.pToken2 !is null);
assert(start.pR !is null);
assert_eq(TOKEN_d, start.pR.pToken1.token);
}

9
spec/test_start_rule.c Normal file
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#include "testparser.h"
#include <assert.h>
#include <string.h>
#include "testutils.h"
int main()
{
return 0;
}

8
spec/test_start_rule.d Normal file
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import testparser;
import std.stdio;
import testutils;
int main()
{
return 0;
}

17
spec/test_start_rule_ast.c Normal file
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#include "testparser.h"
#include <assert.h>
#include <string.h>
#include "testutils.h"
int main()
{
char const * input = "hi";
p_context_t context;
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert_eq(P_SUCCESS, p_parse(&context));
Top * top = p_result(&context);
assert(top->pToken != NULL);
assert_eq(TOKEN_hi, top->pToken->token);
return 0;
}

19
spec/test_start_rule_ast.d Normal file
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import testparser;
import std.stdio;
import testutils;
int main()
{
return 0;
}
unittest
{
string input = "hi";
p_context_t context;
p_context_init(&context, input);
assert_eq(P_SUCCESS, p_parse(&context));
Top * top = p_result(&context);
assert(top.pToken !is null);
assert_eq(TOKEN_hi, top.pToken.token);
}

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spec/test_user_terminate_lexer.c Normal file
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#include "testparser.h"
#include <assert.h>
#include <stdio.h>
#include <string.h>
int main()
{
char const * input = "a";
p_context_t context;
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_SUCCESS);
input = "b";
p_context_init(&context, (uint8_t const *)input, strlen(input));
assert(p_parse(&context) == P_USER_TERMINATED);
assert(p_user_terminate_code(&context) == 8675309);
return 0;
}

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spec/test_user_terminate_lexer.d Normal file
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import testparser;
import std.stdio;
int main()
{
return 0;
}
unittest
{
string input = "a";
p_context_t context;
p_context_init(&context, input);
assert(p_parse(&context) == P_SUCCESS);
input = "b";
p_context_init(&context, input);
assert(p_parse(&context) == P_USER_TERMINATED);
assert(p_user_terminate_code(&context) == 8675309);
}