securityos/node_modules/regl/lib/util/check.js

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2024-09-06 15:32:35 +00:00
// Error checking and parameter validation.
//
// Statements for the form `check.someProcedure(...)` get removed by
// a browserify transform for optimized/minified bundles.
//
/* globals atob */
var isTypedArray = require('./is-typed-array')
var extend = require('./extend')
var endl = '\n'
// only used for extracting shader names. if atob not present, then errors
// will be slightly crappier
function decodeB64 (str) {
if (typeof atob !== 'undefined') {
return atob(str)
}
return 'base64:' + str
}
function raise (message) {
var error = new Error('(regl) ' + message)
console.error(error)
throw error
}
function check (pred, message) {
if (!pred) {
raise(message)
}
}
function encolon (message) {
if (message) {
return ': ' + message
}
return ''
}
function checkParameter (param, possibilities, message) {
if (!(param in possibilities)) {
raise('unknown parameter (' + param + ')' + encolon(message) +
'. possible values: ' + Object.keys(possibilities).join())
}
}
function checkIsTypedArray (data, message) {
if (!isTypedArray(data)) {
raise(
'invalid parameter type' + encolon(message) +
'. must be a typed array')
}
}
function standardTypeEh (value, type) {
switch (type) {
case 'number': return typeof value === 'number'
case 'object': return typeof value === 'object'
case 'string': return typeof value === 'string'
case 'boolean': return typeof value === 'boolean'
case 'function': return typeof value === 'function'
case 'undefined': return typeof value === 'undefined'
case 'symbol': return typeof value === 'symbol'
}
}
function checkTypeOf (value, type, message) {
if (!standardTypeEh(value, type)) {
raise(
'invalid parameter type' + encolon(message) +
'. expected ' + type + ', got ' + (typeof value))
}
}
function checkNonNegativeInt (value, message) {
if (!((value >= 0) &&
((value | 0) === value))) {
raise('invalid parameter type, (' + value + ')' + encolon(message) +
'. must be a nonnegative integer')
}
}
function checkOneOf (value, list, message) {
if (list.indexOf(value) < 0) {
raise('invalid value' + encolon(message) + '. must be one of: ' + list)
}
}
var constructorKeys = [
'gl',
'canvas',
'container',
'attributes',
'pixelRatio',
'extensions',
'optionalExtensions',
'profile',
'onDone'
]
function checkConstructor (obj) {
Object.keys(obj).forEach(function (key) {
if (constructorKeys.indexOf(key) < 0) {
raise('invalid regl constructor argument "' + key + '". must be one of ' + constructorKeys)
}
})
}
function leftPad (str, n) {
str = str + ''
while (str.length < n) {
str = ' ' + str
}
return str
}
function ShaderFile () {
this.name = 'unknown'
this.lines = []
this.index = {}
this.hasErrors = false
}
function ShaderLine (number, line) {
this.number = number
this.line = line
this.errors = []
}
function ShaderError (fileNumber, lineNumber, message) {
this.file = fileNumber
this.line = lineNumber
this.message = message
}
function guessCommand () {
var error = new Error()
var stack = (error.stack || error).toString()
var pat = /compileProcedure.*\n\s*at.*\((.*)\)/.exec(stack)
if (pat) {
return pat[1]
}
var pat2 = /compileProcedure.*\n\s*at\s+(.*)(\n|$)/.exec(stack)
if (pat2) {
return pat2[1]
}
return 'unknown'
}
function guessCallSite () {
var error = new Error()
var stack = (error.stack || error).toString()
var pat = /at REGLCommand.*\n\s+at.*\((.*)\)/.exec(stack)
if (pat) {
return pat[1]
}
var pat2 = /at REGLCommand.*\n\s+at\s+(.*)\n/.exec(stack)
if (pat2) {
return pat2[1]
}
return 'unknown'
}
function parseSource (source, command) {
var lines = source.split('\n')
var lineNumber = 1
var fileNumber = 0
var files = {
unknown: new ShaderFile(),
0: new ShaderFile()
}
files.unknown.name = files[0].name = command || guessCommand()
files.unknown.lines.push(new ShaderLine(0, ''))
for (var i = 0; i < lines.length; ++i) {
var line = lines[i]
var parts = /^\s*#\s*(\w+)\s+(.+)\s*$/.exec(line)
if (parts) {
switch (parts[1]) {
case 'line':
var lineNumberInfo = /(\d+)(\s+\d+)?/.exec(parts[2])
if (lineNumberInfo) {
lineNumber = lineNumberInfo[1] | 0
if (lineNumberInfo[2]) {
fileNumber = lineNumberInfo[2] | 0
if (!(fileNumber in files)) {
files[fileNumber] = new ShaderFile()
}
}
}
break
case 'define':
var nameInfo = /SHADER_NAME(_B64)?\s+(.*)$/.exec(parts[2])
if (nameInfo) {
files[fileNumber].name = (nameInfo[1]
? decodeB64(nameInfo[2])
: nameInfo[2])
}
break
}
}
files[fileNumber].lines.push(new ShaderLine(lineNumber++, line))
}
Object.keys(files).forEach(function (fileNumber) {
var file = files[fileNumber]
file.lines.forEach(function (line) {
file.index[line.number] = line
})
})
return files
}
function parseErrorLog (errLog) {
var result = []
errLog.split('\n').forEach(function (errMsg) {
if (errMsg.length < 5) {
return
}
var parts = /^ERROR:\s+(\d+):(\d+):\s*(.*)$/.exec(errMsg)
if (parts) {
result.push(new ShaderError(
parts[1] | 0,
parts[2] | 0,
parts[3].trim()))
} else if (errMsg.length > 0) {
result.push(new ShaderError('unknown', 0, errMsg))
}
})
return result
}
function annotateFiles (files, errors) {
errors.forEach(function (error) {
var file = files[error.file]
if (file) {
var line = file.index[error.line]
if (line) {
line.errors.push(error)
file.hasErrors = true
return
}
}
files.unknown.hasErrors = true
files.unknown.lines[0].errors.push(error)
})
}
function checkShaderError (gl, shader, source, type, command) {
if (!gl.getShaderParameter(shader, gl.COMPILE_STATUS)) {
var errLog = gl.getShaderInfoLog(shader)
var typeName = type === gl.FRAGMENT_SHADER ? 'fragment' : 'vertex'
checkCommandType(source, 'string', typeName + ' shader source must be a string', command)
var files = parseSource(source, command)
var errors = parseErrorLog(errLog)
annotateFiles(files, errors)
Object.keys(files).forEach(function (fileNumber) {
var file = files[fileNumber]
if (!file.hasErrors) {
return
}
var strings = ['']
var styles = ['']
function push (str, style) {
strings.push(str)
styles.push(style || '')
}
push('file number ' + fileNumber + ': ' + file.name + '\n', 'color:red;text-decoration:underline;font-weight:bold')
file.lines.forEach(function (line) {
if (line.errors.length > 0) {
push(leftPad(line.number, 4) + '| ', 'background-color:yellow; font-weight:bold')
push(line.line + endl, 'color:red; background-color:yellow; font-weight:bold')
// try to guess token
var offset = 0
line.errors.forEach(function (error) {
var message = error.message
var token = /^\s*'(.*)'\s*:\s*(.*)$/.exec(message)
if (token) {
var tokenPat = token[1]
message = token[2]
switch (tokenPat) {
case 'assign':
tokenPat = '='
break
}
offset = Math.max(line.line.indexOf(tokenPat, offset), 0)
} else {
offset = 0
}
push(leftPad('| ', 6))
push(leftPad('^^^', offset + 3) + endl, 'font-weight:bold')
push(leftPad('| ', 6))
push(message + endl, 'font-weight:bold')
})
push(leftPad('| ', 6) + endl)
} else {
push(leftPad(line.number, 4) + '| ')
push(line.line + endl, 'color:red')
}
})
if (typeof document !== 'undefined' && !window.chrome) {
styles[0] = strings.join('%c')
console.log.apply(console, styles)
} else {
console.log(strings.join(''))
}
})
check.raise('Error compiling ' + typeName + ' shader, ' + files[0].name)
}
}
function checkLinkError (gl, program, fragShader, vertShader, command) {
if (!gl.getProgramParameter(program, gl.LINK_STATUS)) {
var errLog = gl.getProgramInfoLog(program)
var fragParse = parseSource(fragShader, command)
var vertParse = parseSource(vertShader, command)
var header = 'Error linking program with vertex shader, "' +
vertParse[0].name + '", and fragment shader "' + fragParse[0].name + '"'
if (typeof document !== 'undefined') {
console.log('%c' + header + endl + '%c' + errLog,
'color:red;text-decoration:underline;font-weight:bold',
'color:red')
} else {
console.log(header + endl + errLog)
}
check.raise(header)
}
}
function saveCommandRef (object) {
object._commandRef = guessCommand()
}
function saveDrawCommandInfo (opts, uniforms, attributes, stringStore) {
saveCommandRef(opts)
function id (str) {
if (str) {
return stringStore.id(str)
}
return 0
}
opts._fragId = id(opts.static.frag)
opts._vertId = id(opts.static.vert)
function addProps (dict, set) {
Object.keys(set).forEach(function (u) {
dict[stringStore.id(u)] = true
})
}
var uniformSet = opts._uniformSet = {}
addProps(uniformSet, uniforms.static)
addProps(uniformSet, uniforms.dynamic)
var attributeSet = opts._attributeSet = {}
addProps(attributeSet, attributes.static)
addProps(attributeSet, attributes.dynamic)
opts._hasCount = (
'count' in opts.static ||
'count' in opts.dynamic ||
'elements' in opts.static ||
'elements' in opts.dynamic)
}
function commandRaise (message, command) {
var callSite = guessCallSite()
raise(message +
' in command ' + (command || guessCommand()) +
(callSite === 'unknown' ? '' : ' called from ' + callSite))
}
function checkCommand (pred, message, command) {
if (!pred) {
commandRaise(message, command || guessCommand())
}
}
function checkParameterCommand (param, possibilities, message, command) {
if (!(param in possibilities)) {
commandRaise(
'unknown parameter (' + param + ')' + encolon(message) +
'. possible values: ' + Object.keys(possibilities).join(),
command || guessCommand())
}
}
function checkCommandType (value, type, message, command) {
if (!standardTypeEh(value, type)) {
commandRaise(
'invalid parameter type' + encolon(message) +
'. expected ' + type + ', got ' + (typeof value),
command || guessCommand())
}
}
function checkOptional (block) {
block()
}
function checkFramebufferFormat (attachment, texFormats, rbFormats) {
if (attachment.texture) {
checkOneOf(
attachment.texture._texture.internalformat,
texFormats,
'unsupported texture format for attachment')
} else {
checkOneOf(
attachment.renderbuffer._renderbuffer.format,
rbFormats,
'unsupported renderbuffer format for attachment')
}
}
var GL_CLAMP_TO_EDGE = 0x812F
var GL_NEAREST = 0x2600
var GL_NEAREST_MIPMAP_NEAREST = 0x2700
var GL_LINEAR_MIPMAP_NEAREST = 0x2701
var GL_NEAREST_MIPMAP_LINEAR = 0x2702
var GL_LINEAR_MIPMAP_LINEAR = 0x2703
var GL_BYTE = 5120
var GL_UNSIGNED_BYTE = 5121
var GL_SHORT = 5122
var GL_UNSIGNED_SHORT = 5123
var GL_INT = 5124
var GL_UNSIGNED_INT = 5125
var GL_FLOAT = 5126
var GL_UNSIGNED_SHORT_4_4_4_4 = 0x8033
var GL_UNSIGNED_SHORT_5_5_5_1 = 0x8034
var GL_UNSIGNED_SHORT_5_6_5 = 0x8363
var GL_UNSIGNED_INT_24_8_WEBGL = 0x84FA
var GL_HALF_FLOAT_OES = 0x8D61
var TYPE_SIZE = {}
TYPE_SIZE[GL_BYTE] =
TYPE_SIZE[GL_UNSIGNED_BYTE] = 1
TYPE_SIZE[GL_SHORT] =
TYPE_SIZE[GL_UNSIGNED_SHORT] =
TYPE_SIZE[GL_HALF_FLOAT_OES] =
TYPE_SIZE[GL_UNSIGNED_SHORT_5_6_5] =
TYPE_SIZE[GL_UNSIGNED_SHORT_4_4_4_4] =
TYPE_SIZE[GL_UNSIGNED_SHORT_5_5_5_1] = 2
TYPE_SIZE[GL_INT] =
TYPE_SIZE[GL_UNSIGNED_INT] =
TYPE_SIZE[GL_FLOAT] =
TYPE_SIZE[GL_UNSIGNED_INT_24_8_WEBGL] = 4
function pixelSize (type, channels) {
if (type === GL_UNSIGNED_SHORT_5_5_5_1 ||
type === GL_UNSIGNED_SHORT_4_4_4_4 ||
type === GL_UNSIGNED_SHORT_5_6_5) {
return 2
} else if (type === GL_UNSIGNED_INT_24_8_WEBGL) {
return 4
} else {
return TYPE_SIZE[type] * channels
}
}
function isPow2 (v) {
return !(v & (v - 1)) && (!!v)
}
function checkTexture2D (info, mipData, limits) {
var i
var w = mipData.width
var h = mipData.height
var c = mipData.channels
// Check texture shape
check(w > 0 && w <= limits.maxTextureSize &&
h > 0 && h <= limits.maxTextureSize,
'invalid texture shape')
// check wrap mode
if (info.wrapS !== GL_CLAMP_TO_EDGE || info.wrapT !== GL_CLAMP_TO_EDGE) {
check(isPow2(w) && isPow2(h),
'incompatible wrap mode for texture, both width and height must be power of 2')
}
if (mipData.mipmask === 1) {
if (w !== 1 && h !== 1) {
check(
info.minFilter !== GL_NEAREST_MIPMAP_NEAREST &&
info.minFilter !== GL_NEAREST_MIPMAP_LINEAR &&
info.minFilter !== GL_LINEAR_MIPMAP_NEAREST &&
info.minFilter !== GL_LINEAR_MIPMAP_LINEAR,
'min filter requires mipmap')
}
} else {
// texture must be power of 2
check(isPow2(w) && isPow2(h),
'texture must be a square power of 2 to support mipmapping')
check(mipData.mipmask === (w << 1) - 1,
'missing or incomplete mipmap data')
}
if (mipData.type === GL_FLOAT) {
if (limits.extensions.indexOf('oes_texture_float_linear') < 0) {
check(info.minFilter === GL_NEAREST && info.magFilter === GL_NEAREST,
'filter not supported, must enable oes_texture_float_linear')
}
check(!info.genMipmaps,
'mipmap generation not supported with float textures')
}
// check image complete
var mipimages = mipData.images
for (i = 0; i < 16; ++i) {
if (mipimages[i]) {
var mw = w >> i
var mh = h >> i
check(mipData.mipmask & (1 << i), 'missing mipmap data')
var img = mipimages[i]
check(
img.width === mw &&
img.height === mh,
'invalid shape for mip images')
check(
img.format === mipData.format &&
img.internalformat === mipData.internalformat &&
img.type === mipData.type,
'incompatible type for mip image')
if (img.compressed) {
// TODO: check size for compressed images
} else if (img.data) {
// check(img.data.byteLength === mw * mh *
// Math.max(pixelSize(img.type, c), img.unpackAlignment),
var rowSize = Math.ceil(pixelSize(img.type, c) * mw / img.unpackAlignment) * img.unpackAlignment
check(img.data.byteLength === rowSize * mh,
'invalid data for image, buffer size is inconsistent with image format')
} else if (img.element) {
// TODO: check element can be loaded
} else if (img.copy) {
// TODO: check compatible format and type
}
} else if (!info.genMipmaps) {
check((mipData.mipmask & (1 << i)) === 0, 'extra mipmap data')
}
}
if (mipData.compressed) {
check(!info.genMipmaps,
'mipmap generation for compressed images not supported')
}
}
function checkTextureCube (texture, info, faces, limits) {
var w = texture.width
var h = texture.height
var c = texture.channels
// Check texture shape
check(
w > 0 && w <= limits.maxTextureSize && h > 0 && h <= limits.maxTextureSize,
'invalid texture shape')
check(
w === h,
'cube map must be square')
check(
info.wrapS === GL_CLAMP_TO_EDGE && info.wrapT === GL_CLAMP_TO_EDGE,
'wrap mode not supported by cube map')
for (var i = 0; i < faces.length; ++i) {
var face = faces[i]
check(
face.width === w && face.height === h,
'inconsistent cube map face shape')
if (info.genMipmaps) {
check(!face.compressed,
'can not generate mipmap for compressed textures')
check(face.mipmask === 1,
'can not specify mipmaps and generate mipmaps')
} else {
// TODO: check mip and filter mode
}
var mipmaps = face.images
for (var j = 0; j < 16; ++j) {
var img = mipmaps[j]
if (img) {
var mw = w >> j
var mh = h >> j
check(face.mipmask & (1 << j), 'missing mipmap data')
check(
img.width === mw &&
img.height === mh,
'invalid shape for mip images')
check(
img.format === texture.format &&
img.internalformat === texture.internalformat &&
img.type === texture.type,
'incompatible type for mip image')
if (img.compressed) {
// TODO: check size for compressed images
} else if (img.data) {
check(img.data.byteLength === mw * mh *
Math.max(pixelSize(img.type, c), img.unpackAlignment),
'invalid data for image, buffer size is inconsistent with image format')
} else if (img.element) {
// TODO: check element can be loaded
} else if (img.copy) {
// TODO: check compatible format and type
}
}
}
}
}
module.exports = extend(check, {
optional: checkOptional,
raise: raise,
commandRaise: commandRaise,
command: checkCommand,
parameter: checkParameter,
commandParameter: checkParameterCommand,
constructor: checkConstructor,
type: checkTypeOf,
commandType: checkCommandType,
isTypedArray: checkIsTypedArray,
nni: checkNonNegativeInt,
oneOf: checkOneOf,
shaderError: checkShaderError,
linkError: checkLinkError,
callSite: guessCallSite,
saveCommandRef: saveCommandRef,
saveDrawInfo: saveDrawCommandInfo,
framebufferFormat: checkFramebufferFormat,
guessCommand: guessCommand,
texture2D: checkTexture2D,
textureCube: checkTextureCube
})