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|
#encoding=utf-8
from __future__ import (
absolute_import, division, print_function, unicode_literals
)
import ast
import xml.parsers.expat
import re
import sys
import copy
license = """/*
* Copyright (C) 2016 Intel Corporation
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*/
"""
pack_header = """%(license)s
/* Instructions, enums and structures for %(platform)s.
*
* This file has been generated, do not hand edit.
*/
#ifndef %(guard)s
#define %(guard)s
#include <stdio.h>
#include <stdint.h>
#include <stdbool.h>
#include <assert.h>
#include <math.h>
#ifndef __gen_validate_value
#define __gen_validate_value(x)
#endif
#ifndef __gen_field_functions
#define __gen_field_functions
union __gen_value {
float f;
uint32_t dw;
};
static inline uint64_t
__gen_mbo(uint32_t start, uint32_t end)
{
return (~0ull >> (64 - (end - start + 1))) << start;
}
static inline uint64_t
__gen_uint(uint64_t v, uint32_t start, uint32_t end)
{
__gen_validate_value(v);
#if DEBUG
const int width = end - start + 1;
if (width < 64) {
const uint64_t max = (1ull << width) - 1;
assert(v <= max);
}
#endif
return v << start;
}
static inline uint64_t
__gen_sint(int64_t v, uint32_t start, uint32_t end)
{
const int width = end - start + 1;
__gen_validate_value(v);
#if DEBUG
if (width < 64) {
const int64_t max = (1ll << (width - 1)) - 1;
const int64_t min = -(1ll << (width - 1));
assert(min <= v && v <= max);
}
#endif
const uint64_t mask = ~0ull >> (64 - width);
return (v & mask) << start;
}
static inline uint64_t
__gen_offset(uint64_t v, uint32_t start, uint32_t end)
{
__gen_validate_value(v);
#if DEBUG
uint64_t mask = (~0ull >> (64 - (end - start + 1))) << start;
assert((v & ~mask) == 0);
#endif
return v;
}
static inline uint32_t
__gen_float(float v)
{
__gen_validate_value(v);
return ((union __gen_value) { .f = (v) }).dw;
}
static inline uint64_t
__gen_sfixed(float v, uint32_t start, uint32_t end, uint32_t fract_bits)
{
__gen_validate_value(v);
const float factor = (1 << fract_bits);
#if DEBUG
const float max = ((1 << (end - start)) - 1) / factor;
const float min = -(1 << (end - start)) / factor;
assert(min <= v && v <= max);
#endif
const int64_t int_val = llroundf(v * factor);
const uint64_t mask = ~0ull >> (64 - (end - start + 1));
return (int_val & mask) << start;
}
static inline uint64_t
__gen_ufixed(float v, uint32_t start, uint32_t end, uint32_t fract_bits)
{
__gen_validate_value(v);
const float factor = (1 << fract_bits);
#if DEBUG
const float max = ((1 << (end - start + 1)) - 1) / factor;
const float min = 0.0f;
assert(min <= v && v <= max);
#endif
const uint64_t uint_val = llroundf(v * factor);
return uint_val << start;
}
#ifndef __gen_address_type
#error #define __gen_address_type before including this file
#endif
#ifndef __gen_user_data
#error #define __gen_combine_address before including this file
#endif
#endif
"""
def to_alphanum(name):
substitutions = {
' ': '',
'/': '',
'[': '',
']': '',
'(': '',
')': '',
'-': '',
':': '',
'.': '',
',': '',
'=': '',
'>': '',
'#': '',
'α': 'alpha',
'&': '',
'*': '',
'"': '',
'+': '',
'\'': '',
}
for i, j in substitutions.items():
name = name.replace(i, j)
return name
def safe_name(name):
name = to_alphanum(name)
if not name[0].isalpha():
name = '_' + name
return name
def num_from_str(num_str):
if num_str.lower().startswith('0x'):
return int(num_str, base=16)
else:
assert(not num_str.startswith('0') and 'octals numbers not allowed')
return int(num_str)
class Field(object):
ufixed_pattern = re.compile(r"u(\d+)\.(\d+)")
sfixed_pattern = re.compile(r"s(\d+)\.(\d+)")
def __init__(self, parser, attrs):
self.parser = parser
if "name" in attrs:
self.name = safe_name(attrs["name"])
self.start = int(attrs["start"])
self.end = int(attrs["end"])
self.type = attrs["type"]
if "prefix" in attrs:
self.prefix = attrs["prefix"]
else:
self.prefix = None
if "default" in attrs:
self.default = int(attrs["default"])
else:
self.default = None
ufixed_match = Field.ufixed_pattern.match(self.type)
if ufixed_match:
self.type = 'ufixed'
self.fractional_size = int(ufixed_match.group(2))
sfixed_match = Field.sfixed_pattern.match(self.type)
if sfixed_match:
self.type = 'sfixed'
self.fractional_size = int(sfixed_match.group(2))
def emit_template_struct(self, dim):
if self.type == 'address':
type = '__gen_address_type'
elif self.type == 'bool':
type = 'bool'
elif self.type == 'float':
type = 'float'
elif self.type == 'ufixed':
type = 'float'
elif self.type == 'sfixed':
type = 'float'
elif self.type == 'uint' and self.end - self.start > 32:
type = 'uint64_t'
elif self.type == 'offset':
type = 'uint64_t'
elif self.type == 'int':
type = 'int32_t'
elif self.type == 'uint':
type = 'uint32_t'
elif self.type in self.parser.structs:
type = 'struct ' + self.parser.gen_prefix(safe_name(self.type))
elif self.type in self.parser.enums:
type = 'enum ' + self.parser.gen_prefix(safe_name(self.type))
elif self.type == 'mbo':
return
else:
print("#error unhandled type: %s" % self.type)
return
print(" %-36s %s%s;" % (type, self.name, dim))
prefix = ""
if len(self.values) > 0 and self.default == None:
if self.prefix:
prefix = self.prefix + "_"
for value in self.values:
print("#define %-40s %d" % (prefix + value.name, value.value))
class Group(object):
def __init__(self, parser, parent, start, count, size):
self.parser = parser
self.parent = parent
self.start = start
self.count = count
self.size = size
self.fields = []
def emit_template_struct(self, dim):
if self.count == 0:
print(" /* variable length fields follow */")
else:
if self.count > 1:
dim = "%s[%d]" % (dim, self.count)
for field in self.fields:
field.emit_template_struct(dim)
class DWord:
def __init__(self):
self.size = 32
self.fields = []
self.address = None
def collect_dwords(self, dwords, start, dim):
for field in self.fields:
if type(field) is Group:
if field.count == 1:
field.collect_dwords(dwords, start + field.start, dim)
else:
for i in range(field.count):
field.collect_dwords(dwords,
start + field.start + i * field.size,
"%s[%d]" % (dim, i))
continue
index = (start + field.start) // 32
if not index in dwords:
dwords[index] = self.DWord()
clone = copy.copy(field)
clone.start = clone.start + start
clone.end = clone.end + start
clone.dim = dim
dwords[index].fields.append(clone)
if field.type == "address":
# assert dwords[index].address == None
dwords[index].address = field
# Coalesce all the dwords covered by this field. The two cases we
# handle are where multiple fields are in a 64 bit word (typically
# and address and a few bits) or where a single struct field
# completely covers multiple dwords.
while index < (start + field.end) // 32:
if index + 1 in dwords and not dwords[index] == dwords[index + 1]:
dwords[index].fields.extend(dwords[index + 1].fields)
dwords[index].size = 64
dwords[index + 1] = dwords[index]
index = index + 1
def collect_dwords_and_length(self):
dwords = {}
self.collect_dwords(dwords, 0, "")
# Determine number of dwords in this group. If we have a size, use
# that, since that'll account for MBZ dwords at the end of a group
# (like dword 8 on BDW+ 3DSTATE_HS). Otherwise, use the largest dword
# index we've seen plus one.
if self.size > 0:
length = self.size // 32
elif dwords:
length = max(dwords.keys()) + 1
else:
length = 0
return (dwords, length)
def emit_pack_function(self, dwords, length):
for index in range(length):
# Handle MBZ dwords
if not index in dwords:
print("")
print(" dw[%d] = 0;" % index)
continue
# For 64 bit dwords, we aliased the two dword entries in the dword
# dict it occupies. Now that we're emitting the pack function,
# skip the duplicate entries.
dw = dwords[index]
if index > 0 and index - 1 in dwords and dw == dwords[index - 1]:
continue
# Special case: only one field and it's a struct at the beginning
# of the dword. In this case we pack directly into the
# destination. This is the only way we handle embedded structs
# larger than 32 bits.
if len(dw.fields) == 1:
field = dw.fields[0]
name = field.name + field.dim
if field.type in self.parser.structs and field.start % 32 == 0:
print("")
print(" %s_pack(data, &dw[%d], &values->%s);" %
(self.parser.gen_prefix(safe_name(field.type)), index, name))
continue
# Pack any fields of struct type first so we have integer values
# to the dword for those fields.
field_index = 0
for field in dw.fields:
if type(field) is Field and field.type in self.parser.structs:
name = field.name + field.dim
print("")
print(" uint32_t v%d_%d;" % (index, field_index))
print(" %s_pack(data, &v%d_%d, &values->%s);" %
(self.parser.gen_prefix(safe_name(field.type)), index, field_index, name))
field_index = field_index + 1
print("")
dword_start = index * 32
if dw.address == None:
address_count = 0
else:
address_count = 1
if dw.size == 32 and dw.address == None:
v = None
print(" dw[%d] =" % index)
elif len(dw.fields) > address_count:
v = "v%d" % index
print(" const uint%d_t %s =" % (dw.size, v))
else:
v = "0"
field_index = 0
non_address_fields = []
for field in dw.fields:
if field.type != "mbo":
name = field.name + field.dim
if field.type == "mbo":
non_address_fields.append("__gen_mbo(%d, %d)" % \
(field.start - dword_start, field.end - dword_start))
elif field.type == "address":
pass
elif field.type == "uint":
non_address_fields.append("__gen_uint(values->%s, %d, %d)" % \
(name, field.start - dword_start, field.end - dword_start))
elif field.type in self.parser.enums:
non_address_fields.append("__gen_uint(values->%s, %d, %d)" % \
(name, field.start - dword_start, field.end - dword_start))
elif field.type == "int":
non_address_fields.append("__gen_sint(values->%s, %d, %d)" % \
(name, field.start - dword_start, field.end - dword_start))
elif field.type == "bool":
non_address_fields.append("__gen_uint(values->%s, %d, %d)" % \
(name, field.start - dword_start, field.end - dword_start))
elif field.type == "float":
non_address_fields.append("__gen_float(values->%s)" % name)
elif field.type == "offset":
non_address_fields.append("__gen_offset(values->%s, %d, %d)" % \
(name, field.start - dword_start, field.end - dword_start))
elif field.type == 'ufixed':
non_address_fields.append("__gen_ufixed(values->%s, %d, %d, %d)" % \
(name, field.start - dword_start, field.end - dword_start, field.fractional_size))
elif field.type == 'sfixed':
non_address_fields.append("__gen_sfixed(values->%s, %d, %d, %d)" % \
(name, field.start - dword_start, field.end - dword_start, field.fractional_size))
elif field.type in self.parser.structs:
non_address_fields.append("__gen_uint(v%d_%d, %d, %d)" % \
(index, field_index, field.start - dword_start, field.end - dword_start))
field_index = field_index + 1
else:
non_address_fields.append("/* unhandled field %s, type %s */\n" % \
(name, field.type))
if len(non_address_fields) > 0:
print(" |\n".join(" " + f for f in non_address_fields) + ";")
if dw.size == 32:
if dw.address:
print(" dw[%d] = __gen_combine_address(data, &dw[%d], values->%s, %s);" % (index, index, dw.address.name + field.dim, v))
continue
if dw.address:
v_address = "v%d_address" % index
print(" const uint64_t %s =\n __gen_combine_address(data, &dw[%d], values->%s, %s);" %
(v_address, index, dw.address.name + field.dim, v))
v = v_address
print(" dw[%d] = %s;" % (index, v))
print(" dw[%d] = %s >> 32;" % (index + 1, v))
class Value(object):
def __init__(self, attrs):
self.name = safe_name(attrs["name"])
self.value = ast.literal_eval(attrs["value"])
class Parser(object):
def __init__(self):
self.parser = xml.parsers.expat.ParserCreate()
self.parser.StartElementHandler = self.start_element
self.parser.EndElementHandler = self.end_element
self.instruction = None
self.structs = {}
self.enums = {}
self.registers = {}
def gen_prefix(self, name):
if name[0] == "_":
return 'GEN%s%s' % (self.gen, name)
else:
return 'GEN%s_%s' % (self.gen, name)
def gen_guard(self):
return self.gen_prefix("PACK_H")
def start_element(self, name, attrs):
if name == "genxml":
self.platform = attrs["name"]
self.gen = attrs["gen"].replace('.', '')
print(pack_header % {'license': license, 'platform': self.platform, 'guard': self.gen_guard()})
elif name in ("instruction", "struct", "register"):
if name == "instruction":
self.instruction = safe_name(attrs["name"])
self.length_bias = int(attrs["bias"])
elif name == "struct":
self.struct = safe_name(attrs["name"])
self.structs[attrs["name"]] = 1
elif name == "register":
self.register = safe_name(attrs["name"])
self.reg_num = num_from_str(attrs["num"])
self.registers[attrs["name"]] = 1
if "length" in attrs:
self.length = int(attrs["length"])
size = self.length * 32
else:
self.length = None
size = 0
self.group = Group(self, None, 0, 1, size)
elif name == "group":
group = Group(self, self.group,
int(attrs["start"]), int(attrs["count"]), int(attrs["size"]))
self.group.fields.append(group)
self.group = group
elif name == "field":
self.group.fields.append(Field(self, attrs))
self.values = []
elif name == "enum":
self.values = []
self.enum = safe_name(attrs["name"])
self.enums[attrs["name"]] = 1
if "prefix" in attrs:
self.prefix = safe_name(attrs["prefix"])
else:
self.prefix= None
elif name == "value":
self.values.append(Value(attrs))
def end_element(self, name):
if name == "instruction":
self.emit_instruction()
self.instruction = None
self.group = None
elif name == "struct":
self.emit_struct()
self.struct = None
self.group = None
elif name == "register":
self.emit_register()
self.register = None
self.reg_num = None
self.group = None
elif name == "group":
self.group = self.group.parent
elif name == "field":
self.group.fields[-1].values = self.values
elif name == "enum":
self.emit_enum()
self.enum = None
elif name == "genxml":
print('#endif /* %s */' % self.gen_guard())
def emit_template_struct(self, name, group):
print("struct %s {" % self.gen_prefix(name))
group.emit_template_struct("")
print("};\n")
def emit_pack_function(self, name, group):
name = self.gen_prefix(name)
print("static inline void\n%s_pack(__gen_user_data *data, void * restrict dst,\n%sconst struct %s * restrict values)\n{" %
(name, ' ' * (len(name) + 6), name))
(dwords, length) = group.collect_dwords_and_length()
if length:
# Cast dst to make header C++ friendly
print(" uint32_t * restrict dw = (uint32_t * restrict) dst;")
group.emit_pack_function(dwords, length)
print("}\n")
def emit_instruction(self):
name = self.instruction
if not self.length == None:
print('#define %-33s %6d' %
(self.gen_prefix(name + "_length"), self.length))
print('#define %-33s %6d' %
(self.gen_prefix(name + "_length_bias"), self.length_bias))
default_fields = []
for field in self.group.fields:
if not type(field) is Field:
continue
if field.default == None:
continue
default_fields.append(" .%-35s = %6d" % (field.name, field.default))
if default_fields:
print('#define %-40s\\' % (self.gen_prefix(name + '_header')))
print(", \\\n".join(default_fields))
print('')
self.emit_template_struct(self.instruction, self.group)
self.emit_pack_function(self.instruction, self.group)
def emit_register(self):
name = self.register
if not self.reg_num == None:
print('#define %-33s 0x%04x' %
(self.gen_prefix(name + "_num"), self.reg_num))
if not self.length == None:
print('#define %-33s %6d' %
(self.gen_prefix(name + "_length"), self.length))
self.emit_template_struct(self.register, self.group)
self.emit_pack_function(self.register, self.group)
def emit_struct(self):
name = self.struct
if not self.length == None:
print('#define %-33s %6d' %
(self.gen_prefix(name + "_length"), self.length))
self.emit_template_struct(self.struct, self.group)
self.emit_pack_function(self.struct, self.group)
def emit_enum(self):
print('enum %s {' % self.gen_prefix(self.enum))
for value in self.values:
if self.prefix:
name = self.prefix + "_" + value.name
else:
name = value.name
print(' %-36s = %6d,' % (name.upper(), value.value))
print('};\n')
def parse(self, filename):
file = open(filename, "rb")
self.parser.ParseFile(file)
file.close()
if len(sys.argv) < 2:
print("No input xml file specified")
sys.exit(1)
input_file = sys.argv[1]
p = Parser()
p.parse(input_file)
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