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|
import re
from templates import GLSL_BLOCK_TEMPLATE
from variables import VarSet, slugify
VAR_PATTERN = re.compile(flags=re.VERBOSE, pattern=r'''
# long form ${ ... } syntax
\${ (?:\s*(?P<type>(?: # optional type prefix
ident # identifiers (always dynamic)
| (?:(?:const|dynamic)\s+)? # optional const/dynamic modifiers
(?:float|u?int) # base type
| swizzle # swizzle mask
| (?:b|i|u)?vecType # vector type (for mask)
)):)?
(?P<expr>[^{}]+)
}
| \$(?P<name>\w+) # reference to captured variable
| @(?P<var>\w+) # reference to locally defined var
''')
class FmtSpec(object):
def __init__(self, ctype='ident_t', fmtstr='_%hx',
wrap_expr=lambda name, expr: expr,
fmt_expr=lambda name: name):
self.ctype = ctype
self.fmtstr = fmtstr
self.wrap_expr = wrap_expr
self.fmt_expr = fmt_expr
@staticmethod
def wrap_var(type, dynamic=False):
if dynamic:
return lambda name, expr: f'sh_var_{type}(sh, "{name}", {expr}, true)'
else:
return lambda name, expr: f'sh_const_{type}(sh, "{name}", {expr})'
@staticmethod
def wrap_fn(fn):
return lambda name: f'{fn}({name})'
VAR_TYPES = {
# identifiers: get mapped as-is
'ident': FmtSpec(),
# normal variables: get mapped as shader constants
'int': FmtSpec(wrap_expr=FmtSpec.wrap_var('int')),
'uint': FmtSpec(wrap_expr=FmtSpec.wrap_var('uint')),
'float': FmtSpec(wrap_expr=FmtSpec.wrap_var('float')),
# constant variables: get printed directly into the source code
'const int': FmtSpec(ctype='int', fmtstr='%d'),
'const uint': FmtSpec(ctype='unsigned', fmtstr='uint(%u)'),
'const float': FmtSpec(ctype='float', fmtstr='float(%f)'),
# dynamic variables: get loaded as shader variables
'dynamic int': FmtSpec(wrap_expr=FmtSpec.wrap_var('int', dynamic=True)),
'dynamic uint': FmtSpec(wrap_expr=FmtSpec.wrap_var('uint', dynamic=True)),
'dynamic float': FmtSpec(wrap_expr=FmtSpec.wrap_var('float', dynamic=True)),
# component mask types
'swizzle': FmtSpec(ctype='uint8_t', fmtstr='%s', fmt_expr=FmtSpec.wrap_fn('sh_swizzle')),
'bvecType': FmtSpec(ctype='uint8_t', fmtstr='%s', fmt_expr=FmtSpec.wrap_fn('sh_bool_type')),
'ivecType': FmtSpec(ctype='uint8_t', fmtstr='%s', fmt_expr=FmtSpec.wrap_fn('sh_int_type')),
'uvecType': FmtSpec(ctype='uint8_t', fmtstr='%s', fmt_expr=FmtSpec.wrap_fn('sh_uint_type')),
'vecType': FmtSpec(ctype='uint8_t', fmtstr='%s', fmt_expr=FmtSpec.wrap_fn('sh_float_type')),
}
def stringify(value, strip):
if strip:
value = re.sub(r'(?:\/\*[^\*]*\*\/|\/\/[^\n]+|^\s*)', '', value)
return '"' + value.replace('\\', '\\\\').replace('"', '\\"') + '\\n"'
def commentify(value, strip):
if strip:
return ''
return '/*' + value.replace('/*', '[[').replace('*/', ']]') + '*/'
# Represents a statement + its enclosed variables
class Statement(object):
def __init__(self, linenr=0):
super().__init__()
self.linenr = linenr
self.vars = VarSet()
def add_var(self, ctype, expr, name=None):
return self.vars.add_var(ctype, expr, name, self.linenr)
def render(self):
raise NotImplementedError
@staticmethod
def parse(text_orig, **kwargs):
raise NotImplementedError
# Represents a single line of GLSL
class GLSLLine(Statement):
class GLSLVar(object): # variable reference
def __init__(self, fmt, var):
self.fmt = fmt
self.var = var
def __init__(self, text, strip=False, **kwargs):
super().__init__(**kwargs)
self.refs = []
self.strip = strip
# produce two versions of line, one for printf() and one for append()
text = text.rstrip()
self.rawstr = stringify(text, strip)
self.fmtstr = stringify(re.sub(VAR_PATTERN, self.handle_var, text.replace('%', '%%')), strip)
def handle_var(self, match):
# local @var
if match['var']:
self.refs.append(match['var'])
return '%d'
# captured $var
type = match['type']
name = match['name']
expr = match['expr'] or name
name = name or slugify(expr)
fmt = VAR_TYPES[type or 'ident']
self.refs.append(fmt.fmt_expr(self.add_var(
ctype = fmt.ctype,
expr = fmt.wrap_expr(name, expr),
name = name,
)))
if fmt.ctype == 'ident_t':
return commentify(name, self.strip) + fmt.fmtstr
else:
return fmt.fmtstr
# Represents an entire GLSL block
class GLSLBlock(Statement):
def __init__(self, line):
super().__init__(linenr=line.linenr)
self.lines = []
self.refs = []
self.append(line)
def append(self, line):
assert isinstance(line, GLSLLine)
self.lines.append(line)
self.refs += line.refs
self.vars.merge(line.vars)
def render(self):
return GLSL_BLOCK_TEMPLATE.render(block=self)
# Represents a statement which can either take a single line or a block
class BlockStart(Statement):
def __init__(self, multiline=False, **kwargs):
super().__init__(**kwargs)
self.multiline = multiline
def add_brace(self, text):
if self.multiline:
text += ' {'
return text
# Represents an @if
class IfCond(BlockStart):
def __init__(self, cond, inner=False, **kwargs):
super().__init__(**kwargs)
self.cond = cond if inner else self.add_var('bool', expr=cond)
def render(self):
return self.add_brace(f'if ({self.cond})')
# Represents an @else
class Else(BlockStart):
def __init__(self, closing, **kwargs):
super().__init__(**kwargs)
self.closing = closing
def render(self):
text = '} else' if self.closing else 'else'
return self.add_brace(text)
# Represents a normal (integer) @for loop, or an (unsigned 8-bit) bitmask loop
class ForLoop(BlockStart):
def __init__(self, var, op, bound, **kwargs):
super().__init__(**kwargs)
self.comps = op == ':'
self.bound = self.add_var('uint8_t' if self.comps else 'int', expr=bound)
self.var = var
self.op = op
def render(self):
if self.comps:
loopstart = f'uint8_t _mask = {self.bound}, {self.var}'
loopcond = f'_mask && ({self.var} = __builtin_ctz(_mask), 1)'
loopstep = f'_mask &= ~(1u << {self.var})'
else:
loopstart = f'int {self.var} = 0'
loopcond = f'{self.var} {self.op} {self.bound}'
loopstep = f'{self.var}++'
return self.add_brace(f'for ({loopstart}; {loopcond}; {loopstep})')
# Represents a @switch block
class Switch(Statement):
def __init__(self, expr, **kwargs):
super().__init__(**kwargs)
self.expr = self.add_var('unsigned', expr=expr)
def render(self):
return f'switch ({self.expr}) {{'
# Represents a @case label
class Case(Statement):
def __init__(self, label, **kwargs):
super().__init__(**kwargs)
self.label = label
def render(self):
return f'case {self.label}:'
# Represents a @default line
class Default(Statement):
def render(self):
return 'default:'
# Represents a @break line
class Break(Statement):
def render(self):
return 'break;'
# Represents a single closing brace
class EndBrace(Statement):
def render(self):
return '}'
# Shitty regex-based statement parser
PATTERN_IF = re.compile(flags=re.VERBOSE, pattern=r'''
@\s*if\s* # '@if'
(?P<inner>@)? # optional leading @
\((?P<cond>.+)\)\s* # (condition)
(?P<multiline>{)?\s* # optional trailing {
$''')
PATTERN_ELSE = re.compile(flags=re.VERBOSE, pattern=r'''
@\s*(?P<closing>})?\s* # optional leading }
else\s* # 'else'
(?P<multiline>{)?\s* # optional trailing {
$''')
PATTERN_FOR = re.compile(flags=re.VERBOSE, pattern=r'''
@\s*for\s+\( # '@for' (
(?P<var>\w+)\s* # loop variable name
(?P<op>(?:\<=?|:))(?=[\w\s])\s* # '<', '<=' or ':', followed by \s or \w
(?P<bound>[^\s].*)\s* # loop boundary expression
\)\s*(?P<multiline>{)?\s* # ) and optional trailing {
$''')
PATTERN_SWITCH = re.compile(flags=re.VERBOSE, pattern=r'''
@\s*switch\s* # '@switch'
\((?P<expr>.+)\)\s*{ # switch expression
$''')
PATTERN_CASE = re.compile(flags=re.VERBOSE, pattern=r'''
@\s*case\s* # '@case'
(?P<label>[^:]+):? # case label, optionally followed by :
$''')
PATTERN_BREAK = r'@\s*break;?\s*$'
PATTERN_DEFAULT = r'@\s*default:?\s*$'
PATTERN_BRACE = r'@\s*}\s*$'
PARSERS = {
PATTERN_IF: lambda r, **kw: IfCond(r['cond'], inner=r['inner'], multiline=r['multiline'], **kw),
PATTERN_ELSE: lambda r, **kw: Else(closing=r['closing'], multiline=r['multiline'], **kw),
PATTERN_FOR: lambda r, **kw: ForLoop(r['var'], r['op'], r['bound'], multiline=r['multiline'], **kw),
PATTERN_SWITCH: lambda r, **kw: Switch(r['expr'], **kw),
PATTERN_CASE: lambda r, **kw: Case(r['label'], **kw),
PATTERN_BREAK: lambda _, **kw: Break(**kw),
PATTERN_DEFAULT: lambda _, **kw: Default(**kw),
PATTERN_BRACE: lambda _, **kw: EndBrace(**kw),
}
def parse_line(text_orig, strip, **kwargs):
# skip empty lines
text = text_orig.strip()
if not text:
return None
if text.lstrip().startswith('@'):
# try parsing as statement
for pat, fun in PARSERS.items():
if res := re.match(pat, text):
return fun(res, **kwargs)
# return generic error for unrecognized statements
raise SyntaxError('Syntax error in directive: ' + text.lstrip())
else:
# default to literal GLSL line
return GLSLLine(text_orig, strip, **kwargs)
Statement.parse = parse_line
|
