mirror of
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678 lines
20 KiB
C
678 lines
20 KiB
C
#ifndef GMQCC_AST_HDR
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#define GMQCC_AST_HDR
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#include "ir.h"
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typedef uint16_t ast_flag_t;
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/* Note: I will not be using a _t suffix for the
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* "main" ast node types for now.
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*/
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typedef struct ast_node_common ast_node;
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typedef struct ast_expression_common ast_expression;
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typedef struct ast_value_s ast_value;
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typedef struct ast_function_s ast_function;
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typedef struct ast_block_s ast_block;
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typedef struct ast_binary_s ast_binary;
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typedef struct ast_store_s ast_store;
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typedef struct ast_binstore_s ast_binstore;
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typedef struct ast_entfield_s ast_entfield;
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typedef struct ast_ifthen_s ast_ifthen;
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typedef struct ast_ternary_s ast_ternary;
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typedef struct ast_loop_s ast_loop;
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typedef struct ast_call_s ast_call;
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typedef struct ast_unary_s ast_unary;
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typedef struct ast_return_s ast_return;
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typedef struct ast_member_s ast_member;
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typedef struct ast_array_index_s ast_array_index;
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typedef struct ast_breakcont_s ast_breakcont;
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typedef struct ast_switch_s ast_switch;
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typedef struct ast_label_s ast_label;
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typedef struct ast_goto_s ast_goto;
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typedef struct ast_argpipe_s ast_argpipe;
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typedef struct ast_state_s ast_state;
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enum {
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AST_FLAG_VARIADIC = 1 << 0,
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AST_FLAG_NORETURN = 1 << 1,
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AST_FLAG_INLINE = 1 << 2,
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AST_FLAG_INITIALIZED = 1 << 3,
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AST_FLAG_DEPRECATED = 1 << 4,
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AST_FLAG_INCLUDE_DEF = 1 << 5,
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AST_FLAG_IS_VARARG = 1 << 6,
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AST_FLAG_ALIAS = 1 << 7,
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AST_FLAG_ERASEABLE = 1 << 8,
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AST_FLAG_ACCUMULATE = 1 << 9,
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/* An array declared as []
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* so that the size is taken from the initializer
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*/
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AST_FLAG_ARRAY_INIT = 1 << 10,
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AST_FLAG_FINAL_DECL = 1 << 11,
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/* Several coverage options
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* AST_FLAG_COVERAGE means there was an explicit [[coverage]] attribute,
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* which will overwrite the default set via the commandline switches.
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* BLOCK_COVERAGE inserts coverage() calls into every basic block.
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* In the future there might be more options like tracking variable access
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* by creating get/set wrapper functions.
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*/
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AST_FLAG_COVERAGE = 1 << 12,
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AST_FLAG_BLOCK_COVERAGE = 1 << 13,
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AST_FLAG_LAST,
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AST_FLAG_TYPE_MASK = (AST_FLAG_VARIADIC | AST_FLAG_NORETURN),
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AST_FLAG_COVERAGE_MASK = (AST_FLAG_BLOCK_COVERAGE)
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};
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enum {
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TYPE_ast_node, /* 0 */
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TYPE_ast_expression, /* 1 */
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TYPE_ast_value, /* 2 */
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TYPE_ast_function, /* 3 */
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TYPE_ast_block, /* 4 */
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TYPE_ast_binary, /* 5 */
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TYPE_ast_store, /* 6 */
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TYPE_ast_binstore, /* 7 */
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TYPE_ast_entfield, /* 8 */
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TYPE_ast_ifthen, /* 9 */
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TYPE_ast_ternary, /* 10 */
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TYPE_ast_loop, /* 11 */
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TYPE_ast_call, /* 12 */
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TYPE_ast_unary, /* 13 */
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TYPE_ast_return, /* 14 */
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TYPE_ast_member, /* 15 */
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TYPE_ast_array_index, /* 16 */
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TYPE_ast_breakcont, /* 17 */
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TYPE_ast_switch, /* 18 */
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TYPE_ast_label, /* 19 */
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TYPE_ast_goto, /* 20 */
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TYPE_ast_argpipe, /* 21 */
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TYPE_ast_state /* 22 */
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};
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#define ast_istype(x, t) ( ((ast_node*)x)->nodetype == (TYPE_##t) )
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#define ast_ctx(node) (((ast_node*)(node))->context)
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#define ast_side_effects(node) (((ast_node*)(node))->side_effects)
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/* Node interface with common components
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*/
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typedef void ast_node_delete(ast_node*);
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struct ast_node_common
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{
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lex_ctx_t context;
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/* I don't feel comfortable using keywords like 'delete' as names... */
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ast_node_delete *destroy;
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int nodetype;
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/* keep: if a node contains this node, 'keep'
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* prevents its dtor from destroying this node as well.
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*/
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bool keep;
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bool side_effects;
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};
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#define ast_delete(x) (*( ((ast_node*)(x))->destroy ))((ast_node*)(x))
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#define ast_unref(x) do \
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{ \
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if (! (((ast_node*)(x))->keep) ) { \
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ast_delete(x); \
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} \
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} while(0)
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/* Expression interface
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*
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* Any expression or block returns an ir_value, and needs
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* to know the current function.
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*/
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typedef bool ast_expression_codegen(ast_expression*,
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ast_function*,
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bool lvalue,
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ir_value**);
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/* TODO: the codegen function should take an output-type parameter
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* indicating whether a variable, type, label etc. is expected, and
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* an environment!
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* Then later an ast_ident could have a codegen using this to figure
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* out what to look for.
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* eg. in code which uses a not-yet defined variable, the expression
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* would take an ast_ident, and the codegen would be called with
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* type `expression`, so the ast_ident's codegen would search for
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* variables through the environment (or functions, constants...).
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*/
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struct ast_expression_common
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{
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ast_node node;
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ast_expression_codegen *codegen;
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int vtype;
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ast_expression *next;
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/* arrays get a member-count */
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size_t count;
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ast_value* *params;
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ast_flag_t flags;
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/* void foo(string...) gets varparam set as a restriction
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* for variadic parameters
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*/
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ast_expression *varparam;
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/* The codegen functions should store their output values
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* so we can call it multiple times without re-evaluating.
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* Store lvalue and rvalue seperately though. So that
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* ast_entfield for example can generate both if required.
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*/
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ir_value *outl;
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ir_value *outr;
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};
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/* Value
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*
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* Types are also values, both have a type and a name.
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* especially considering possible constructs like typedefs.
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* typedef float foo;
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* is like creating a 'float foo', foo serving as the type's name.
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*/
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typedef union {
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qcfloat_t vfloat;
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int vint;
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vec3_t vvec;
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const char *vstring;
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int ventity;
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ast_function *vfunc;
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ast_value *vfield;
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} basic_value_t;
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struct ast_value_s
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{
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ast_expression expression;
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const char *name;
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const char *desc;
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const char *argcounter;
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int cvq; /* const/var qualifier */
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bool isfield; /* this declares a field */
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bool isimm; /* an immediate, not just const */
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bool hasvalue;
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bool inexact; /* inexact coming from folded expression */
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basic_value_t constval;
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/* for TYPE_ARRAY we have an optional vector
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* of constants when an initializer list
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* was provided.
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*/
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basic_value_t *initlist;
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/* usecount for the parser */
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size_t uses;
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ir_value *ir_v;
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ir_value **ir_values;
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size_t ir_value_count;
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/* ONLY for arrays in progs version up to 6 */
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ast_value *setter;
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ast_value *getter;
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bool intrinsic; /* true if associated with intrinsic */
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};
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ast_value* ast_value_new(lex_ctx_t ctx, const char *name, int qctype);
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ast_value* ast_value_copy(const ast_value *self);
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/* This will NOT delete an underlying ast_function */
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void ast_value_delete(ast_value*);
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bool ast_value_set_name(ast_value*, const char *name);
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/*
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bool ast_value_codegen(ast_value*, ast_function*, bool lvalue, ir_value**);
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bool ast_local_codegen(ast_value *self, ir_function *func, bool isparam);
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*/
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bool ast_global_codegen(ast_value *self, ir_builder *ir, bool isfield);
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void ast_value_params_add(ast_value*, ast_value*);
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bool ast_compare_type(ast_expression *a, ast_expression *b);
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ast_expression* ast_type_copy(lex_ctx_t ctx, const ast_expression *ex);
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#define ast_type_adopt(a, b) ast_type_adopt_impl((ast_expression*)(a), (ast_expression*)(b))
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void ast_type_adopt_impl(ast_expression *self, const ast_expression *other);
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void ast_type_to_string(ast_expression *e, char *buf, size_t bufsize);
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typedef enum ast_binary_ref_s {
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AST_REF_NONE = 0,
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AST_REF_LEFT = 1 << 1,
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AST_REF_RIGHT = 1 << 2,
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AST_REF_ALL = (AST_REF_LEFT | AST_REF_RIGHT)
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} ast_binary_ref;
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/* Binary
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*
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* A value-returning binary expression.
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*/
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struct ast_binary_s
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{
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ast_expression expression;
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int op;
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ast_expression *left;
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ast_expression *right;
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ast_binary_ref refs;
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bool right_first;
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};
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ast_binary* ast_binary_new(lex_ctx_t ctx,
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int op,
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ast_expression *left,
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ast_expression *right);
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/* Binstore
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*
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* An assignment including a binary expression with the source as left operand.
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* Eg. a += b; is a binstore { INSTR_STORE, INSTR_ADD, a, b }
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*/
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struct ast_binstore_s
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{
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ast_expression expression;
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int opstore;
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int opbin;
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ast_expression *dest;
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ast_expression *source;
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/* for &~= which uses the destination in a binary in source we can use this */
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bool keep_dest;
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};
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ast_binstore* ast_binstore_new(lex_ctx_t ctx,
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int storeop,
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int op,
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ast_expression *left,
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ast_expression *right);
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/* Unary
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*
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* Regular unary expressions: not,neg
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*/
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struct ast_unary_s
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{
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ast_expression expression;
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int op;
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ast_expression *operand;
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};
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ast_unary* ast_unary_new(lex_ctx_t ctx,
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int op,
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ast_expression *expr);
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/* Return
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*
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* Make sure 'return' only happens at the end of a block, otherwise the IR
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* will refuse to create further instructions.
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* This should be honored by the parser.
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*/
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struct ast_return_s
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{
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ast_expression expression;
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ast_expression *operand;
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};
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ast_return* ast_return_new(lex_ctx_t ctx,
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ast_expression *expr);
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/* Entity-field
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*
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* This must do 2 things:
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* -) Provide a way to fetch an entity field value. (Rvalue)
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* -) Provide a pointer to an entity field. (Lvalue)
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* The problem:
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* In original QC, there's only a STORE via pointer, but
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* no LOAD via pointer.
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* So we must know beforehand if we are going to read or assign
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* the field.
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* For this we will have to extend the codegen() functions with
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* a flag saying whether or not we need an L or an R-value.
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*/
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struct ast_entfield_s
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{
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ast_expression expression;
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/* The entity can come from an expression of course. */
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ast_expression *entity;
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/* As can the field, it just must result in a value of TYPE_FIELD */
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ast_expression *field;
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};
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ast_entfield* ast_entfield_new(lex_ctx_t ctx, ast_expression *entity, ast_expression *field);
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ast_entfield* ast_entfield_new_force(lex_ctx_t ctx, ast_expression *entity, ast_expression *field, const ast_expression *outtype);
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/* Member access:
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*
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* For now used for vectors. If we get structs or unions
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* we can have them handled here as well.
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*/
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struct ast_member_s
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{
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ast_expression expression;
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ast_expression *owner;
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unsigned int field;
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const char *name;
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bool rvalue;
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};
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ast_member* ast_member_new(lex_ctx_t ctx, ast_expression *owner, unsigned int field, const char *name);
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void ast_member_delete(ast_member*);
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bool ast_member_set_name(ast_member*, const char *name);
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/* Array index access:
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*
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* QC forces us to take special action on arrays:
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* an ast_store on an ast_array_index must not codegen the index,
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* but call its setter - unless we have an instruction set which supports
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* what we need.
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* Any other array index access will be codegened to a call to the getter.
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* In any case, accessing an element via a compiletime-constant index will
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* result in quick access to that variable.
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*/
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struct ast_array_index_s
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{
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ast_expression expression;
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ast_expression *array;
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ast_expression *index;
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};
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ast_array_index* ast_array_index_new(lex_ctx_t ctx, ast_expression *array, ast_expression *index);
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/* Vararg pipe node:
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*
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* copy all varargs starting from a specific index
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*/
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struct ast_argpipe_s
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{
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ast_expression expression;
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ast_expression *index;
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};
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ast_argpipe* ast_argpipe_new(lex_ctx_t ctx, ast_expression *index);
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/* Store
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*
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* Stores left<-right and returns left.
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* Specialized binary expression node
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*/
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struct ast_store_s
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{
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ast_expression expression;
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int op;
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ast_expression *dest;
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ast_expression *source;
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};
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ast_store* ast_store_new(lex_ctx_t ctx, int op,
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ast_expression *d, ast_expression *s);
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/* If
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*
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* A general 'if then else' statement, either side can be NULL and will
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* thus be omitted. It is an error for *both* cases to be NULL at once.
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*
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* During its 'codegen' it'll be changing the ast_function's block.
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*
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* An if is also an "expression". Its codegen will put NULL into the
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* output field though. For ternary expressions an ast_ternary will be
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* added.
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*/
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struct ast_ifthen_s
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{
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ast_expression expression;
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ast_expression *cond;
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/* It's all just 'expressions', since an ast_block is one too. */
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ast_expression *on_true;
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ast_expression *on_false;
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};
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ast_ifthen* ast_ifthen_new(lex_ctx_t ctx, ast_expression *cond, ast_expression *ontrue, ast_expression *onfalse);
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/* Ternary expressions...
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*
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* Contrary to 'if-then-else' nodes, ternary expressions actually
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* return a value, otherwise they behave the very same way.
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* The difference in 'codegen' is that it'll return the value of
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* a PHI node.
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*
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* The other difference is that in an ast_ternary, NEITHER side
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* must be NULL, there's ALWAYS an else branch.
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*
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* This is the only ast_node beside ast_value which contains
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* an ir_value. Theoretically we don't need to remember it though.
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*/
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struct ast_ternary_s
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{
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ast_expression expression;
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ast_expression *cond;
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/* It's all just 'expressions', since an ast_block is one too. */
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ast_expression *on_true;
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ast_expression *on_false;
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};
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ast_ternary* ast_ternary_new(lex_ctx_t ctx, ast_expression *cond, ast_expression *ontrue, ast_expression *onfalse);
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/* A general loop node
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*
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* For convenience it contains 4 parts:
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* -) (ini) = initializing expression
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* -) (pre) = pre-loop condition
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* -) (pst) = post-loop condition
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* -) (inc) = "increment" expression
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* The following is a psudo-representation of this loop
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* note that '=>' bears the logical meaning of "implies".
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* (a => b) equals (!a || b)
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{ini};
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while (has_pre => {pre})
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{
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{body};
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continue: // a 'continue' will jump here
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if (has_pst => {pst})
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break;
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{inc};
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}
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*/
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struct ast_loop_s
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{
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ast_expression expression;
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ast_expression *initexpr;
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ast_expression *precond;
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ast_expression *postcond;
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ast_expression *increment;
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ast_expression *body;
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/* For now we allow a seperate flag on whether or not the condition
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* is supposed to be true or false.
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* That way, the parser can generate a 'while not(!x)' for `while(x)`
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* if desired, which is useful for the new -f{true,false}-empty-strings
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* flag.
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*/
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bool pre_not;
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bool post_not;
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};
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ast_loop* ast_loop_new(lex_ctx_t ctx,
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ast_expression *initexpr,
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ast_expression *precond, bool pre_not,
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ast_expression *postcond, bool post_not,
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ast_expression *increment,
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ast_expression *body);
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/* Break/Continue
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*/
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struct ast_breakcont_s
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{
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ast_expression expression;
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bool is_continue;
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unsigned int levels;
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};
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ast_breakcont* ast_breakcont_new(lex_ctx_t ctx, bool iscont, unsigned int levels);
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/* Switch Statements
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*
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* A few notes about this: with the original QCVM, no real optimization
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* is possible. The SWITCH instruction set isn't really helping a lot, since
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* it only collapes the EQ and IF instructions into one.
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* Note: Declaring local variables inside caseblocks is normal.
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* Since we don't have to deal with a stack there's no unnatural behaviour to
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* be expected from it.
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* TODO: Ticket #20
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*/
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typedef struct {
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ast_expression *value; /* #20 will replace this */
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ast_expression *code;
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} ast_switch_case;
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struct ast_switch_s
|
|
{
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|
ast_expression expression;
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|
|
|
ast_expression *operand;
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|
ast_switch_case *cases;
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|
};
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|
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ast_switch* ast_switch_new(lex_ctx_t ctx, ast_expression *op);
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|
|
|
/* Label nodes
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*
|
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* Introduce a label which can be used together with 'goto'
|
|
*/
|
|
struct ast_label_s
|
|
{
|
|
ast_expression expression;
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|
const char *name;
|
|
ir_block *irblock;
|
|
ast_goto **gotos;
|
|
|
|
/* means it has not yet been defined */
|
|
bool undefined;
|
|
};
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|
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|
ast_label* ast_label_new(lex_ctx_t ctx, const char *name, bool undefined);
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|
|
|
/* GOTO nodes
|
|
*
|
|
* Go to a label, the label node is filled in at a later point!
|
|
*/
|
|
struct ast_goto_s
|
|
{
|
|
ast_expression expression;
|
|
const char *name;
|
|
ast_label *target;
|
|
ir_block *irblock_from;
|
|
};
|
|
|
|
ast_goto* ast_goto_new(lex_ctx_t ctx, const char *name);
|
|
void ast_goto_set_label(ast_goto*, ast_label*);
|
|
|
|
/* STATE node
|
|
*
|
|
* For frame/think state updates: void foo() [framenum, nextthink] {}
|
|
*/
|
|
struct ast_state_s
|
|
{
|
|
ast_expression expression;
|
|
ast_expression *framenum;
|
|
ast_expression *nextthink;
|
|
};
|
|
ast_state* ast_state_new(lex_ctx_t ctx, ast_expression *frame, ast_expression *think);
|
|
void ast_state_delete(ast_state*);
|
|
|
|
/* CALL node
|
|
*
|
|
* Contains an ast_expression as target, rather than an ast_function/value.
|
|
* Since it's how QC works, every ast_function has an ast_value
|
|
* associated anyway - in other words, the VM contains function
|
|
* pointers for every function anyway. Thus, this node will call
|
|
* expression.
|
|
* Additionally it contains a list of ast_expressions as parameters.
|
|
* Since calls can return values, an ast_call is also an ast_expression.
|
|
*/
|
|
struct ast_call_s
|
|
{
|
|
ast_expression expression;
|
|
ast_expression *func;
|
|
ast_expression **params;
|
|
ast_expression *va_count;
|
|
};
|
|
ast_call* ast_call_new(lex_ctx_t ctx,
|
|
ast_expression *funcexpr);
|
|
bool ast_call_check_types(ast_call*, ast_expression *this_func_va_type);
|
|
|
|
/* Blocks
|
|
*
|
|
*/
|
|
struct ast_block_s
|
|
{
|
|
ast_expression expression;
|
|
|
|
ast_value* *locals;
|
|
ast_expression* *exprs;
|
|
ast_expression* *collect;
|
|
};
|
|
ast_block* ast_block_new(lex_ctx_t ctx);
|
|
void ast_block_delete(ast_block*);
|
|
void ast_block_set_type(ast_block*, ast_expression *from);
|
|
void ast_block_collect(ast_block*, ast_expression*);
|
|
|
|
bool GMQCC_WARN ast_block_add_expr(ast_block*, ast_expression*);
|
|
|
|
/* Function
|
|
*
|
|
* Contains a list of blocks... at least in theory.
|
|
* Usually there's just the main block, other blocks are inside that.
|
|
*
|
|
* Technically, functions don't need to be an AST node, since we have
|
|
* neither functions inside functions, nor lambdas, and function
|
|
* pointers could just work with a name. However, this way could be
|
|
* more flexible, and adds no real complexity.
|
|
*/
|
|
struct ast_function_s
|
|
{
|
|
ast_node node;
|
|
|
|
ast_value *vtype;
|
|
const char *name;
|
|
|
|
int builtin;
|
|
|
|
/* list of used-up names for statics without the count suffix */
|
|
char **static_names;
|
|
/* number of static variables, by convention this includes the
|
|
* ones without the count-suffix - remember this when dealing
|
|
* with savegames. uint instead of size_t as %zu in printf is
|
|
* C99, so no windows support. */
|
|
unsigned int static_count;
|
|
|
|
ir_function *ir_func;
|
|
ir_block *curblock;
|
|
ir_block **breakblocks;
|
|
ir_block **continueblocks;
|
|
|
|
size_t labelcount;
|
|
/* in order for thread safety - for the optional
|
|
* channel abesed multithreading... keeping a buffer
|
|
* here to use in ast_function_label.
|
|
*/
|
|
char labelbuf[64];
|
|
|
|
ast_block* *blocks;
|
|
|
|
ast_value *varargs;
|
|
ast_value *argc;
|
|
ast_value *fixedparams;
|
|
ast_value *return_value;
|
|
};
|
|
ast_function* ast_function_new(lex_ctx_t ctx, const char *name, ast_value *vtype);
|
|
/* This will NOT delete the underlying ast_value */
|
|
void ast_function_delete(ast_function*);
|
|
/* For "optimized" builds this can just keep returning "foo"...
|
|
* or whatever...
|
|
*/
|
|
const char* ast_function_label(ast_function*, const char *prefix);
|
|
|
|
bool ast_function_codegen(ast_function *self, ir_builder *builder);
|
|
bool ast_generate_accessors(ast_value *asvalue, ir_builder *ir);
|
|
|
|
/*
|
|
* If the condition creates a situation where this becomes -1 size it means there are
|
|
* more AST_FLAGs than the type ast_flag_t is capable of holding. So either eliminate
|
|
* the AST flag count or change the ast_flag_t typedef to a type large enough to accomodate
|
|
* all the flags.
|
|
*/
|
|
typedef int static_assert_is_ast_flag_safe [((AST_FLAG_LAST) <= (ast_flag_t)(-1)) ? 1 : -1];
|
|
#endif
|