Commit 88b98ff7 authored by Rémy Oudompheng's avatar Rémy Oudompheng

cmd/gc: accept ideal float as indices.

Fixes #4813.

R=golang-dev, daniel.morsing, rsc
CC=golang-dev
https://golang.org/cl/7625050
parent 5e6a1a3f
......@@ -276,6 +276,29 @@ callrecvlist(NodeList *l)
return 0;
}
// indexlit implements typechecking of untyped values as
// array/slice indexes. It is equivalent to defaultlit
// except for constants of numerical kind, which are acceptable
// whenever they can be represented by a value of type int.
static void
indexlit(Node **np)
{
Node *n;
n = *np;
if(n == N || !isideal(n->type))
return;
switch(consttype(n)) {
case CTINT:
case CTRUNE:
case CTFLT:
case CTCPLX:
defaultlit(np, types[TINT]);
break;
}
defaultlit(np, T);
}
static void
typecheck1(Node **np, int top)
{
......@@ -845,7 +868,7 @@ reswitch:
case TSTRING:
case TARRAY:
defaultlit(&n->right, T);
indexlit(&n->right);
if(t->etype == TSTRING)
n->type = types[TUINT8];
else
......@@ -861,7 +884,7 @@ reswitch:
yyerror("non-integer %s index %N", why, n->right);
break;
}
if(n->right->op == OLITERAL) {
if(isconst(n->right, CTINT)) {
if(mpgetfix(n->right->val.u.xval) < 0)
yyerror("invalid %s index %N (index must be non-negative)", why, n->right);
else if(isfixedarray(t) && t->bound > 0 && mpgetfix(n->right->val.u.xval) >= t->bound)
......@@ -938,8 +961,8 @@ reswitch:
typecheck(&n->right->left, Erv);
typecheck(&n->right->right, Erv);
defaultlit(&n->left, T);
defaultlit(&n->right->left, T);
defaultlit(&n->right->right, T);
indexlit(&n->right->left);
indexlit(&n->right->right);
l = n->left;
if(isfixedarray(l->type)) {
if(!islvalue(n->left)) {
......
// errorcheck
// Copyright 2013 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Issue 4813: use of constant floats as indices.
package main
var A [3]int
var S []int
var T string
const (
i = 1
f = 2.0
f2 = 2.1
c = complex(2, 0)
c2 = complex(2, 1)
)
var (
vf = f
vc = c
)
var (
a1 = A[i]
a2 = A[f]
a3 = A[f2] // ERROR "truncated"
a4 = A[c]
a5 = A[c2] // ERROR "truncated"
a6 = A[vf] // ERROR "non-integer"
a7 = A[vc] // ERROR "non-integer"
s1 = S[i]
s2 = S[f]
s3 = S[f2] // ERROR "truncated"
s4 = S[c]
s5 = S[c2] // ERROR "truncated"
s6 = S[vf] // ERROR "non-integer"
s7 = S[vc] // ERROR "non-integer"
t1 = T[i]
t2 = T[f]
t3 = T[f2] // ERROR "truncated"
t4 = T[c]
t5 = T[c2] // ERROR "truncated"
t6 = T[vf] // ERROR "non-integer"
t7 = T[vc] // ERROR "non-integer"
)
......@@ -36,6 +36,8 @@ const (
ci64big int64 = 1<<31
ci64bigger int64 = 1<<32
chuge = 1<<100
cfgood = 2.0
cfbad = 2.1
cnj = -2
cni int = -3
......@@ -46,6 +48,8 @@ const (
cni64big int64 = -1<<31
cni64bigger int64 = -1<<32
cnhuge = -1<<100
cnfgood = -2.0
cnfbad = -2.1
)
var j int = 100020
......@@ -57,6 +61,8 @@ var i64 int64 = 100023
var i64big int64 = 1<<31
var i64bigger int64 = 1<<32
var huge uint64 = 1<<64 - 1
var fgood float64 = 2.0
var fbad float64 = 2.1
var nj int = -10
var ni int = -11
......@@ -67,6 +73,8 @@ var ni64 int64 = -13
var ni64big int64 = -1<<31
var ni64bigger int64 = -1<<32
var nhuge int64 = -1<<63
var nfgood float64 = -2.0
var nfbad float64 = -2.1
var si []int = make([]int, 10)
var ai [10]int
......@@ -156,7 +164,7 @@ func testExpr(b *bufio.Writer, expr string) {
if pass == 0 {
fmt.Fprintf(b, "\ttest(func(){use(%s)}, %q)\n", expr, expr)
} else {
fmt.Fprintf(b, "\tuse(%s) // ERROR \"index|overflow\"\n", expr)
fmt.Fprintf(b, "\tuse(%s) // ERROR \"index|overflow|truncated\"\n", expr)
}
}
......@@ -192,7 +200,7 @@ func main() {
[]string{"", "n"},
// Size of index.
[]string{"j", "i", "i8", "i16", "i32", "i64", "i64big", "i64bigger", "huge"},
[]string{"j", "i", "i8", "i16", "i32", "i64", "i64big", "i64bigger", "huge", "fgood", "fbad"},
}
forall(choices, func(x []string) {
......@@ -206,7 +214,7 @@ func main() {
// negative constant
// large constant
thisPass := 0
if c == "c" && (a == "a" || a == "pa" || n == "n" || i == "i64big" || i == "i64bigger" || i == "huge") {
if c == "c" && (a == "a" || a == "pa" || n == "n" || i == "i64big" || i == "i64bigger" || i == "huge" || i == "fbad") {
if i == "huge" {
// Due to a detail of 6g's internals,
// the huge constant errors happen in an
......@@ -224,26 +232,49 @@ func main() {
}
}
pae := p + a + e + big
cni := c + n + i
// If we're using the big-len data, positive int8 and int16 cannot overflow.
if big == "b" && n == "" && (i == "i8" || i == "i16") {
if pass == 0 {
fmt.Fprintf(b, "\tuse(%s[%s])\n", pae, cni)
fmt.Fprintf(b, "\tuse(%s[0:%s])\n", pae, cni)
fmt.Fprintf(b, "\tuse(%s[1:%s])\n", pae, cni)
fmt.Fprintf(b, "\tuse(%s[%s:])\n", pae, cni)
fmt.Fprintf(b, "\tuse(%s[%s:%s])\n", pae, cni, cni)
}
return
}
// Float variables cannot be used as indices.
if c == "" && (i == "fgood" || i == "fbad") {
return
}
// Integral float constat is ok.
if c == "c" && n == "" && i == "fgood" {
if pass == 0 {
fmt.Fprintf(b, "\tuse(%s[%s])\n", pae, cni)
fmt.Fprintf(b, "\tuse(%s[0:%s])\n", pae, cni)
fmt.Fprintf(b, "\tuse(%s[1:%s])\n", pae, cni)
fmt.Fprintf(b, "\tuse(%s[%s:])\n", pae, cni)
fmt.Fprintf(b, "\tuse(%s[%s:%s])\n", pae, cni, cni)
}
return
}
// Only print the test case if it is appropriate for this pass.
if thisPass == pass {
pae := p+a+e+big
cni := c+n+i
// Index operation
testExpr(b, pae + "[" + cni + "]")
testExpr(b, pae+"["+cni+"]")
// Slice operation.
// Low index 0 is a special case in ggen.c
// so test both 0 and 1.
testExpr(b, pae + "[0:" + cni + "]")
testExpr(b, pae + "[1:" + cni + "]")
testExpr(b, pae + "[" + cni + ":]")
testExpr(b, pae + "[" + cni + ":" + cni + "]")
testExpr(b, pae+"[0:"+cni+"]")
testExpr(b, pae+"[1:"+cni+"]")
testExpr(b, pae+"["+cni+":]")
testExpr(b, pae+"["+cni+":"+cni+"]")
}
})
......@@ -261,7 +292,7 @@ func forall(choices [][]string, f func([]string)) {
return
}
for _, x[d] = range choices[d] {
recurse(d+1)
recurse(d + 1)
}
}
recurse(0)
......
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