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astgen: fix exprRl error_value, ptr variants, negation, and missing node types

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Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
This commit is contained in:
Motiejus Jakštys
2026-02-13 23:18:23 +00:00
parent e010fa0347
commit 2d4d3e0695
1 changed files with 156 additions and 63 deletions
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207
astgen.c
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@@ -2227,8 +2227,9 @@ static uint32_t blockExprExpr(
static uint32_t ifExpr(GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node);
static uint32_t forExpr(
GenZir* gz, Scope* scope, uint32_t node, bool is_statement);
static uint32_t orelseCatchExpr(
GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node, bool is_catch);
static uint32_t orelseCatchExpr(GenZir* gz, Scope* scope, ResultLoc rl,
uint32_t node, ZirInstTag cond_op, ZirInstTag unwrap_op,
ZirInstTag unwrap_code_op);
static uint32_t arrayInitDotExpr(
GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node);
static uint32_t switchExpr(
@@ -2452,9 +2453,15 @@ static uint32_t typeExpr(GenZir* gz, Scope* scope, uint32_t node) {
return comptimeExpr(gz, scope, rl, node, COMPTIME_REASON_TYPE);
}
// Mirrors numberLiteral (AstGen.zig:8544).
// Sign parameter for numberLiteral (AstGen.zig:8674).
enum NumSign { NUM_SIGN_POSITIVE, NUM_SIGN_NEGATIVE };
// Mirrors numberLiteral (AstGen.zig:8679).
// Parses integer and float literals, returns appropriate ZIR ref.
static uint32_t numberLiteral(GenZir* gz, uint32_t node) {
// source_node is the node used for rvalue/error reporting (may differ from
// node when called from negation).
static uint32_t numberLiteral(
GenZir* gz, uint32_t node, uint32_t source_node, enum NumSign sign) {
AstGenCtx* ag = gz->astgen;
uint32_t num_token = ag->tree->nodes.main_tokens[node];
uint32_t tok_start = ag->tree->tokens.starts[num_token];
@@ -2505,12 +2512,22 @@ static uint32_t numberLiteral(GenZir* gz, uint32_t node) {
}
// Special cases for 0 and 1 (AstGen.zig:8687-8703).
// Note: upstream errors on negative zero for integers; we return zero
// regardless of sign to match the same codegen path (AstGen.zig:8687).
if (value == 0)
return ZIR_REF_ZERO;
if (value == 1)
return ZIR_REF_ONE;
if (value == 1) {
return (sign == NUM_SIGN_POSITIVE) ? ZIR_REF_ONE
: ZIR_REF_NEGATIVE_ONE;
}
return addInt(gz, value);
// For other integers, emit the positive value and negate if needed
// (AstGen.zig:8751-8756).
uint32_t result = addInt(gz, value);
if (sign == NUM_SIGN_NEGATIVE) {
return addUnNode(gz, ZIR_INST_NEGATE, result, source_node);
}
return result;
}
// Mirrors builtinCall (AstGen.zig:9191), @import case (AstGen.zig:9242).
@@ -4179,7 +4196,8 @@ static uint32_t structInitExpr(
}
// --- tryExpr (AstGen.zig:5957) ---
static uint32_t tryExpr(GenZir* gz, Scope* scope, uint32_t node) {
static uint32_t tryExpr(
GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node) {
AstGenCtx* ag = gz->astgen;
AstData nd = ag->tree->nodes.datas[node];
uint32_t operand_node = nd.lhs;
@@ -4190,20 +4208,33 @@ static uint32_t tryExpr(GenZir* gz, Scope* scope, uint32_t node) {
uint32_t try_lc_line = ag->source_line - gz->decl_line;
uint32_t try_lc_column = ag->source_column;
// Evaluate operand (AstGen.zig:5993-6001).
ResultLoc operand_rl = RL_NONE_VAL;
// Determine operand rl and block tag based on result location
// (AstGen.zig:5989-5992).
ResultLoc operand_rl;
ZirInstTag block_tag;
ZirInstTag err_tag;
if (RL_IS_REF(rl)) {
operand_rl = RL_REF_VAL;
block_tag = ZIR_INST_TRY_PTR;
err_tag = ZIR_INST_ERR_UNION_CODE_PTR;
} else {
operand_rl = RL_NONE_VAL;
block_tag = ZIR_INST_TRY;
err_tag = ZIR_INST_ERR_UNION_CODE;
}
operand_rl.ctx = RI_CTX_ERROR_HANDLING_EXPR;
// Evaluate operand (AstGen.zig:5993-6006).
uint32_t operand = exprRl(gz, scope, operand_rl, operand_node);
// Create try block instruction (AstGen.zig:6007).
uint32_t try_inst = makeBlockInst(ag, ZIR_INST_TRY, gz, node);
// Create try block instruction (AstGen.zig:6008).
uint32_t try_inst = makeBlockInst(ag, block_tag, gz, node);
gzAppendInstruction(gz, try_inst);
// Else scope: extract error code, return it (AstGen.zig:6012-6025).
// Else scope: extract error code, return it (AstGen.zig:6011-6025).
GenZir else_scope = makeSubBlock(gz, scope);
uint32_t err_code
= addUnNode(&else_scope, ZIR_INST_ERR_UNION_CODE, operand, node);
uint32_t err_code = addUnNode(&else_scope, err_tag, operand, node);
// Emit defers for error path (AstGen.zig:6019).
if (ag->fn_block != NULL) {
@@ -4220,7 +4251,12 @@ static uint32_t tryExpr(GenZir* gz, Scope* scope, uint32_t node) {
setTryBody(ag, &else_scope, try_inst, operand);
// else_scope unstacked by setTryBody.
return try_inst + ZIR_REF_START_INDEX; // toRef()
// For ref/ref_coerced_ty, return directly; otherwise rvalue
// (AstGen.zig:6025-6028).
uint32_t result = try_inst + ZIR_REF_START_INDEX; // toRef()
if (RL_IS_REF(rl))
return result;
return rvalue(gz, rl, result, node);
}
// --- boolBinOp (AstGen.zig:6274) ---
@@ -4284,7 +4320,8 @@ static uint32_t exprRl(GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node) {
switch (tag) {
case AST_NODE_NUMBER_LITERAL:
return rvalue(gz, rl, numberLiteral(gz, node), node);
return rvalue(
gz, rl, numberLiteral(gz, node, node, NUM_SIGN_POSITIVE), node);
case AST_NODE_BUILTIN_CALL_TWO:
case AST_NODE_BUILTIN_CALL_TWO_COMMA:
return builtinCall(gz, scope, rl, node);
@@ -4410,9 +4447,9 @@ static uint32_t exprRl(GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node) {
case AST_NODE_TAGGED_UNION_ENUM_TAG:
case AST_NODE_TAGGED_UNION_ENUM_TAG_TRAILING:
return rvalue(gz, rl, containerDecl(gz, scope, node), node);
// try (AstGen.zig:831).
// try (AstGen.zig:1115).
case AST_NODE_TRY:
return rvalue(gz, rl, tryExpr(gz, scope, node), node);
return tryExpr(gz, scope, rl, node);
// Comparison operators (AstGen.zig:714-726).
case AST_NODE_EQUAL_EQUAL:
return rvalue(
@@ -4478,10 +4515,18 @@ static uint32_t exprRl(GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node) {
return rvalue(gz, rl,
addUnNode(gz, ZIR_INST_BIT_NOT, expr(gz, scope, nd.lhs), node),
node);
case AST_NODE_NEGATION:
// negation (AstGen.zig:9863-9882).
case AST_NODE_NEGATION: {
// Check for number_literal as sub-expression to preserve negativity
// (AstGen.zig:9875-9877).
if (ag->tree->nodes.tags[nd.lhs] == AST_NODE_NUMBER_LITERAL) {
return rvalue(gz, rl,
numberLiteral(gz, nd.lhs, node, NUM_SIGN_NEGATIVE), node);
}
return rvalue(gz, rl,
addUnNode(gz, ZIR_INST_NEGATE, expr(gz, scope, nd.lhs), node),
node);
}
case AST_NODE_NEGATION_WRAP:
return rvalue(gz, rl,
addUnNode(gz, ZIR_INST_NEGATE_WRAP, expr(gz, scope, nd.lhs), node),
@@ -4500,15 +4545,26 @@ static uint32_t exprRl(GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node) {
addUnNode(
gz, ZIR_INST_OPTIONAL_TYPE, typeExpr(gz, scope, nd.lhs), node),
node);
// unwrap_optional (AstGen.zig:966-985).
// unwrap_optional (AstGen.zig:966-983).
case AST_NODE_UNWRAP_OPTIONAL: {
if (RL_IS_REF(rl)) {
uint32_t lhs = exprRl(gz, scope, RL_REF_VAL, nd.lhs);
advanceSourceCursorToMainToken(ag, gz, node);
uint32_t saved_line = ag->source_line - gz->decl_line;
uint32_t saved_col = ag->source_column;
emitDbgStmt(gz, saved_line, saved_col);
return addUnNode(
gz, ZIR_INST_OPTIONAL_PAYLOAD_SAFE_PTR, lhs, node);
} else {
uint32_t lhs = expr(gz, scope, nd.lhs);
advanceSourceCursorToMainToken(ag, gz, node);
uint32_t saved_line = ag->source_line - gz->decl_line;
uint32_t saved_col = ag->source_column;
emitDbgStmt(gz, saved_line, saved_col);
return rvalue(gz, rl,
addUnNode(gz, ZIR_INST_OPTIONAL_PAYLOAD_SAFE, lhs, node), node);
addUnNode(gz, ZIR_INST_OPTIONAL_PAYLOAD_SAFE, lhs, node),
node);
}
}
// error_union type (AstGen.zig:788-797).
case AST_NODE_ERROR_UNION: {
@@ -4695,12 +4751,26 @@ static uint32_t exprRl(GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node) {
return rvalue(
gz, rl, addInstruction(gz, ZIR_INST_SLICE_SENTINEL, data), node);
}
// orelse (AstGen.zig:6031-6142).
// orelse (AstGen.zig:1054-1075).
case AST_NODE_ORELSE:
return orelseCatchExpr(gz, scope, rl, node, false);
// catch (AstGen.zig:6031-6142).
if (RL_IS_REF(rl)) {
return orelseCatchExpr(gz, scope, rl, node,
ZIR_INST_IS_NON_NULL_PTR, ZIR_INST_OPTIONAL_PAYLOAD_UNSAFE_PTR,
(ZirInstTag)0);
} else {
return orelseCatchExpr(gz, scope, rl, node, ZIR_INST_IS_NON_NULL,
ZIR_INST_OPTIONAL_PAYLOAD_UNSAFE, (ZirInstTag)0);
}
// catch (AstGen.zig:1017-1052).
case AST_NODE_CATCH:
return orelseCatchExpr(gz, scope, rl, node, true);
if (RL_IS_REF(rl)) {
return orelseCatchExpr(gz, scope, rl, node,
ZIR_INST_IS_NON_ERR_PTR, ZIR_INST_ERR_UNION_PAYLOAD_UNSAFE_PTR,
ZIR_INST_ERR_UNION_CODE_PTR);
} else {
return orelseCatchExpr(gz, scope, rl, node, ZIR_INST_IS_NON_ERR,
ZIR_INST_ERR_UNION_PAYLOAD_UNSAFE, ZIR_INST_ERR_UNION_CODE);
}
// Block expressions (AstGen.zig:984-992).
case AST_NODE_BLOCK_TWO:
case AST_NODE_BLOCK_TWO_SEMICOLON:
@@ -4728,13 +4798,29 @@ static uint32_t exprRl(GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node) {
return rvalue(gz, rl,
addPlNodeBin(gz, ZIR_INST_MERGE_ERROR_SETS, node, lhs, rhs), node);
}
// Wrapping arithmetic.
// Wrapping arithmetic (AstGen.zig:751-758).
case AST_NODE_ADD_WRAP:
return rvalue(
gz, rl, simpleBinOp(gz, scope, node, ZIR_INST_ADDWRAP), node);
case AST_NODE_SUB_WRAP:
return rvalue(
gz, rl, simpleBinOp(gz, scope, node, ZIR_INST_SUBWRAP), node);
case AST_NODE_MUL_WRAP:
return rvalue(
gz, rl, simpleBinOp(gz, scope, node, ZIR_INST_MULWRAP), node);
// Saturating arithmetic (AstGen.zig:752-761).
case AST_NODE_ADD_SAT:
return rvalue(
gz, rl, simpleBinOp(gz, scope, node, ZIR_INST_ADD_SAT), node);
case AST_NODE_SUB_SAT:
return rvalue(
gz, rl, simpleBinOp(gz, scope, node, ZIR_INST_SUB_SAT), node);
case AST_NODE_MUL_SAT:
return rvalue(
gz, rl, simpleBinOp(gz, scope, node, ZIR_INST_MUL_SAT), node);
case AST_NODE_SHL_SAT:
return rvalue(
gz, rl, simpleBinOp(gz, scope, node, ZIR_INST_SHL_SAT), node);
// break (AstGen.zig:2150-2237).
case AST_NODE_BREAK: {
uint32_t opt_break_label = nd.lhs; // UINT32_MAX = none
@@ -4918,9 +5004,9 @@ static uint32_t exprRl(GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node) {
case AST_NODE_WHILE_CONT:
case AST_NODE_WHILE:
return rvalue(gz, rl, whileExpr(gz, scope, node, false), node);
// error_value (AstGen.zig:1005-1010).
// error_value (AstGen.zig:1005).
case AST_NODE_ERROR_VALUE: {
uint32_t error_token = nd.rhs;
uint32_t error_token = ag->tree->nodes.main_tokens[node] + 2;
uint32_t str = identAsString(ag, error_token);
return rvalue(gz, rl,
addStrTok(gz, ZIR_INST_ERROR_VALUE, str, error_token), node);
@@ -4956,59 +5042,59 @@ static uint32_t exprRl(GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node) {
case AST_NODE_ASSIGN:
assignStmt(gz, scope, node);
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
// Compound assignment operators (AstGen.zig:685-744).
// Compound assignment operators (AstGen.zig:689-744).
case AST_NODE_ASSIGN_ADD:
assignOp(gz, scope, node, ZIR_INST_ADD);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_SUB:
assignOp(gz, scope, node, ZIR_INST_SUB);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_MUL:
assignOp(gz, scope, node, ZIR_INST_MUL);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_DIV:
assignOp(gz, scope, node, ZIR_INST_DIV);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_MOD:
assignOp(gz, scope, node, ZIR_INST_MOD_REM);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_BIT_AND:
assignOp(gz, scope, node, ZIR_INST_BIT_AND);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_BIT_OR:
assignOp(gz, scope, node, ZIR_INST_BIT_OR);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_BIT_XOR:
assignOp(gz, scope, node, ZIR_INST_XOR);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_ADD_WRAP:
assignOp(gz, scope, node, ZIR_INST_ADDWRAP);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_SUB_WRAP:
assignOp(gz, scope, node, ZIR_INST_SUBWRAP);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_MUL_WRAP:
assignOp(gz, scope, node, ZIR_INST_MULWRAP);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_ADD_SAT:
assignOp(gz, scope, node, ZIR_INST_ADD_SAT);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_SUB_SAT:
assignOp(gz, scope, node, ZIR_INST_SUB_SAT);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_MUL_SAT:
assignOp(gz, scope, node, ZIR_INST_MUL_SAT);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
// Shift assignment operators (AstGen.zig:676-687).
case AST_NODE_ASSIGN_SHL:
assignShift(gz, scope, node, ZIR_INST_SHL);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_SHR:
assignShift(gz, scope, node, ZIR_INST_SHR);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
case AST_NODE_ASSIGN_SHL_SAT:
assignShiftSat(gz, scope, node);
return ZIR_REF_VOID_VALUE;
return rvalue(gz, rl, ZIR_REF_VOID_VALUE, node);
default:
SET_ERROR(ag);
return ZIR_REF_VOID_VALUE;
@@ -5828,13 +5914,19 @@ static uint32_t forExpr(
// --- orelseCatchExpr (AstGen.zig:6031-6142) ---
// Handles `lhs orelse rhs` and `lhs catch rhs`.
static uint32_t orelseCatchExpr(
GenZir* gz, Scope* scope, ResultLoc rl, uint32_t node, bool is_catch) {
static uint32_t orelseCatchExpr(GenZir* gz, Scope* scope, ResultLoc rl,
uint32_t node, ZirInstTag cond_op, ZirInstTag unwrap_op,
ZirInstTag unwrap_code_op) {
// unwrap_code_op used for catch payload capture scope (not yet
// implemented in C, but passed for correctness/future use).
(void)unwrap_code_op;
AstGenCtx* ag = gz->astgen;
const Ast* tree = ag->tree;
AstData nd = tree->nodes.datas[node];
bool do_err_trace = is_catch && ag->fn_ret_ty != 0;
bool do_err_trace = ag->fn_ret_ty != 0
&& (cond_op == ZIR_INST_IS_NON_ERR
|| cond_op == ZIR_INST_IS_NON_ERR_PTR);
// breakResultInfo (AstGen.zig:6046-6058).
bool need_rl = nodesNeedRlContains(ag, node);
@@ -5845,7 +5937,12 @@ static uint32_t orelseCatchExpr(
GenZir block_scope = makeSubBlock(gz, scope);
// Evaluate operand in block_scope (AstGen.zig:6066-6074).
ResultLoc operand_rl = RL_NONE_VAL;
ResultLoc operand_rl;
if (RL_IS_REF(break_rl)) {
operand_rl = RL_REF_VAL;
} else {
operand_rl = RL_NONE_VAL;
}
if (do_err_trace) {
operand_rl.ctx = RI_CTX_ERROR_HANDLING_EXPR;
}
@@ -5853,9 +5950,7 @@ static uint32_t orelseCatchExpr(
= exprRl(&block_scope, &block_scope.base, operand_rl, nd.lhs);
// Check condition in block_scope (AstGen.zig:6075).
ZirInstTag test_tag
= is_catch ? ZIR_INST_IS_NON_ERR : ZIR_INST_IS_NON_NULL;
uint32_t condition = addUnNode(&block_scope, test_tag, operand, node);
uint32_t condition = addUnNode(&block_scope, cond_op, operand, node);
// condbr in block_scope (AstGen.zig:6076).
uint32_t condbr = addCondBr(&block_scope, ZIR_INST_CONDBR, node);
@@ -5868,9 +5963,7 @@ static uint32_t orelseCatchExpr(
// Then branch: unwrap payload (AstGen.zig:6083-6092).
GenZir then_scope = makeSubBlock(&block_scope, scope);
ZirInstTag unwrap_tag = is_catch ? ZIR_INST_ERR_UNION_PAYLOAD_UNSAFE
: ZIR_INST_OPTIONAL_PAYLOAD_UNSAFE;
uint32_t unwrapped = addUnNode(&then_scope, unwrap_tag, operand, node);
uint32_t unwrapped = addUnNode(&then_scope, unwrap_op, operand, node);
// Apply rvalue coercion unless rl is ref/ref_coerced_ty
// (AstGen.zig:6088-6091).
uint32_t then_result = (rl.tag == RL_REF || rl.tag == RL_REF_COERCED_TY)